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MATHEMATICAL MONOGRAPHS. 
 
 EDITED BY 
 
 Mansfield Merriman and Robert S. Woodward. 
 
 Octavo, Cloth, $1.00 each. 
 
 No. 1. HISTORY OF MODERN MATHEMATICS. 
 
 By David Eugene Smith. 
 
 No. 2. SYNTHETIC PROJECTIVE GEOMETRY. 
 
 By George Bruce Halsted. 
 
 No. 3. DETERMINANTS. 
 
 By Laenas Gifford Weld. 
 
 No. 4. HYPERBOLIC FUNCTIONS. 
 
 By James McMahon. 
 
 No. 5. HARMONIC FUNCTIONS. 
 
 By William E. Byerly. 
 
 No. 6. GRASSMANN'S SPACE ANALYSIS. 
 
 By Edward W. Hyde. 
 
 No. 7. PROBABILITY AND THEORY OF ERRORS. 
 
 By Robert S. Woodward. 
 
 No. 8. VECTOR ANALYSIS AND QUATERNIONS. 
 
 By Alexander Macfarlane. 
 
 No. 9. DIFFERENTIAL EQUATIONS. 
 
 By William Woolsey Johnson. 
 
 No. 10. THE SOLUTION OF EQUATIONS. 
 
 By Mansfield Merriman. 
 
 No. II. FUNCTIONS OF A COMPLEX VARIABLE. 
 
 By Thomas S. Fiske. 
 
 PUBLISHED BY 
 
 JOHN WILEY & SONS, NEW YORK. 
 CHAPMAN & HALL, Limited, LONDON. 
 
MATHEMATICAL MONOGRAPHS. 
 
 EDITED BY 
 
 MANSFIELD MERRIMAN and ROBERT S. WOODWARD. 
 
 No. 8. 
 
 VECTOR ANALYSIS 
 
 AND 
 
 QUATERNIONS. 
 
 BY 
 
 ALEXANDER MACFARLANE, 
 
 Secretary of International Association for Promoting the Study of Quaternions. 
 
 BOSTON COLLEGE LIBKAK* 
 CHESTNUT HILL, MASS. 
 
 FOURTH EDITION. 
 
 FIRST THOUSAND. 
 
 mTH. DEPT„ 
 
 NEW YORK: 
 
 JOHN WILEY & SONS. 
 
 London: CHAPMAN & HALL, Limited. 
 
 1906. 
 
Copyright, 1896, 
 
 BY 
 
 MANSFIELD MERRIMAN and ROBERT S. WOODWARD 
 
 UNDER THE TITLE 
 
 HIGHER MATHEMATICS. 
 
 First Edition, September, 1896. 
 Second Edition, January, 1898. 
 Third Edition, August, 1900. 
 Fourth Edition, January, 1906. 
 
 1543 
 
 ROBERT DRUMMOND, PRINTHR, NEW YORK. 
 
EDITORS' PREFACE. 
 
 The volume called Higher Mathematics, the first edition 
 of which was published in 1896, contained eleven chapters by 
 eleven authors, each chapter being independent of the others, 
 but all supposing the reader to have at least a mathematical 
 training equivalent to that given in classical and engineering 
 colleges. The publication of that volume is now discontinued 
 and the chapters are issued in separate form. In these reissues 
 it will generally be found that the monographs are enlarged 
 by additional articles or appendices which either amplify the 
 former presentation or record recent advances. This plan of 
 publication has been arranged in order to meet the demand of 
 teachers and the convenience of classes, but it is also thought 
 that it may prove advantageous to readers in special lines of 
 mathematical literature. 
 
 It is the intention of the publishers and editors to add other 
 monographs to the series from time to time, if the call for the 
 same seems to warrant it. Among the topics which are under 
 consideration are those of elliptic functions, the theory of num- 
 bers, the group theory, the calculus of variations, and non- 
 Euclidean geometry; possibly also monographs on branches of 
 astronomy, mechanics, and mathematical physics may be included. 
 It is the hope of the editors that this form of publication may 
 tend to promote mathematical study and research over a wider 
 field than that which the former volume has occupied. 
 
 December, 1905. 
 
AUTHOR'S PREFACE. 
 
 Since this Introduction to Vector Analysis and Quaternions 
 was first published in 1896, the study of the subject has become 
 much more general; and whereas some reviewers then regarded 
 the analysis as a luxury, it is now recognized as a necessity for 
 the exact student of physics or engineering. In America, Pro- 
 fessor Hathaway has published a Primer of Quaternions (New 
 York, 1896), and Dr. Wilson has amplified and extended Pro- 
 fessor Gibbs' lectures on vector analysis into a text-book for the 
 use of students of mathematics and physics (New York, 1901). 
 In Great Britain, Professor Henrici and Mr. Turner have pub- 
 lished a manual for students entitled Vectors and Rotors (London, 
 1903); Dr. Knott has prepared a new edition of Kelland and 
 Tait's Introduction to Quaternions (London, 1904); and Pro- 
 fessor Joly has realized Hamilton's idea of a Manual of Quater- 
 nions (London, 1905). In Germany Dr. Bucherer has pub- 
 lished Elemente der Vektoranalysis (Leipzig, 1903) which has 
 now reached a second edition. 
 
 Also the writings of the great masters have been rendered 
 more accessible. A new edition of Hamilton's classic, the Ele- 
 ments of Quaternions, has been prepared by Professor Joly 
 (London, 1899, 1901); Tait's Scientific Papers have been re- 
 printed in collected form (Cambridge, 1898, 1900); and a com- 
 plete edition of Grassmann's mathematical and physical works 
 has been edited by Friedrich Engel with the assistance of several 
 of the eminent mathematicians of Germany (Leipzig, 1894-). 
 In the same interval many papers, pamphlets, and discussions 
 have appeared. For those who desire information on the litera- 
 ture of the subject a Bibliography has been published by the 
 Association for the promotion of the study of Quaternions and 
 Allied Mathematics (Dublin, 1904). 
 
 There is still much variety in the matter of notation, and the 
 relation of Vector Analysis to Quaternions is still the subject 
 of discussion (see Journal of the Deutsche Mathematiker-Ver- 
 einigung for 1904 and 1905). 
 
 Chatham, Ontario, Canada, December, 1905. 
 
CONTENTS. 
 
 Art. i. Introduction Page 7 
 
 2. Addition of Coplanar Vectors 8 
 
 3. Products of Coplanar Vectors 14 
 
 4. Coaxial Quaternions 21 
 
 5. Addition of Vectors in Space 25 
 
 6. Product of Two Vectors 26 
 
 7. Product of Three Vectors 31 
 
 8. Composition of Located Quantities 35 
 
 9. Spherical Trigonometry 39 
 
 10. Composition of Rotations 45 
 
 Index 
 
 49 
 

 VECTOR ANALYSIS AND QUATERNIONS. 
 
 Art. 1. Introduction. 
 
 By " Vector Analysis " is meant a space analysis in which 
 the vector is the fundamental idea; by " Quaternions" is meant 
 a space-analysis in which the quaternion is the fundamental 
 idea. They are in truth complementary parts of one whole; 
 and in this chapter they will be treated as such, and developed 
 so as to harmonize with one another and with the Cartesian 
 Analysis.* The subject to be treated is the analysis of quanti- 
 ties in space, whether they are vector in nature, or quaternion 
 in nature, or of a still different nature, or are of such a kind that 
 they can be adequately represented by space quantities. 
 
 Every proposition about quantities in space ought to re- 
 main true when restricted to a plane ; just as propositions 
 about quantities in a plane remain true when restricted to a 
 straight line. Hence in the following articles the ascent to the 
 algebra of space is made through the intermediate algebra of 
 the plane. Arts. 2-4 treat of the more restricted analysis, 
 while Arts. 5-10 treat of the general analysis. 
 
 This space analysis is a universal Cartesian analysis, in the 
 same manner as algebra is a universal arithmetic. By provid- 
 ing an explicit notation for directed quantities, it enables their 
 general properties to be investigated independently of any 
 particular system of coordinates, whether rectangular, cylin- 
 drical, or polar. It also has this advantage that it can express 
 
 *For a discussion of the relation of Vector Analysis to Quaternions, see 
 Nature, 1891-1893. 
 
8 VECTOR ANALYSIS AND QUATERNIONS. 
 
 the directed quantity by a linear function of the coordinates, 
 instead of in a roundabout way by means of a quadratic func- 
 tion. 
 
 The different views of this extension of analysis which have 
 been held by independent writers are briefly indicated by the 
 titles of their works : 
 
 Argand, Essai sur une maniere de representer les quantites 
 imaginaires dans les constructions geornetriques, 1806. 
 
 Warren, Treatise on the geometrical representation of the square 
 roots of negative quantities, 1828. 
 
 Moebius, Der barycentrische Calcul, 1827. 
 
 Bellavitis, Calcolo delle Equipollenze, 1835. 
 
 Grassmann, Die lineale Ausdehnungslehre, 1844. 
 
 De Morgan, Trigonometry and Double Algebra, 1849. 
 
 O'Brien, Symbolic Forms derived from the conception of the 
 translation of a directed magnitude. Philosophical Transactions, 
 1851. 
 
 Hamilton, Lectures on Quaternions, 1853, and Elements of 
 Quaternions, 1866. 
 
 Tait, Elementary Treatise on Quaternions, 1867. 
 
 Hankel, Vorlesungen iiber die complexen Zahlen und ihre 
 Functionen, 1867. 
 
 Schlegel, System der Raumlehre, 1872. 
 
 Houel, Theorie des quantites complexes, 1874. 
 
 Gibbs, Elements of Vector Analysis, 188 1-4. 
 
 Peano, Calcolo geometrico, 1888. 
 
 Hyde, The Directional Calculus, 1890. 
 
 Heaviside, Vector Analysis, in " Reprint of Electrical Papers," 
 1885-92. 
 
 Macfarlane, Principles of the Algebra of Physics, 1891. Papers 
 on Space Analysis, 1891-3. 
 
 An excellent synopsis is given by Hagen in the second volume 
 of his " Synopsis der hoheren Mathematik." 
 
 Art. 2. Addition of Coplanar Vectors. 
 
 By a " vector" is meant a quantity which has magnitude 
 and direction. It is graphically represented by a line whose 
 
ADDITION OF COPLANAR VECTORS. V 
 
 length represents the magnitude on some convenient scale, and 
 whose direction coincides with or represents the direction of 
 the vector. Though a vector is represented by a line, its 
 physical dimensions maybe different from that of a line. Ex- 
 amples are a linear velocity which is of one dimension in 
 length, a directed area which is of two dimensions in length, 
 an axis which is of no dimensions in length. 
 
 A vector will be denoted by a capital italic letter, as £* its 
 magnitude by a small italicletter, as b, and its direction by a small 
 Greek letter, as /?. For example, B = bfi, R = rp. Sometimes 
 it is necessary to introduce a dot or a mark / to separate 
 the specification of the direction from the expression for the 
 magnitude ; f but in such simple expressions as the above, the 
 difference is sufficiently indicated by the difference of type. A 
 system of three mutually rectangular axes will be indicated, 
 as usual, by the letters i,j, k. 
 
 The analysis of a vector here supposed is that into magni- 
 tude and direction. According to Hamilton and Tait and 
 other writers on Quaternions, the vector is analyzed into tensor 
 and unit-vector, which means that the tensor is a mere ratio 
 destitute of dimensions, while the unit-vector is the physical 
 magnitude. But it will be found that the analysis into magni- 
 tude and direction is much more in accord with physical ideas, 
 and explains readily many things which are difficult to explain 
 by the other analysis. 
 
 A vector quantity may be such that its components have a 
 common point of application and are applied simultaneously; 
 or it may be such that its components are applied in succes- 
 sion, each component starting from the end of its predecessor. 
 An example of the former is found in two forces applied simul- 
 taneously at the same point, and an example of the latter in 
 
 *This notation is found convenient by electrical writers in order to harmo- 
 nize with the Hospitalier system of symbols and abbreviations. 
 
 f The dot was used for this purpose in the author's Note on Plane Algebra, 
 1883; Kennelly has since used Z for the same purpose in his electrical papers 
 
10 VECTOR ANALYSIS AND QUATERNIONS. 
 
 two rectilinear displacements made in succession to one an- 
 other. 
 
 Composition of Components having a common Point of 
 Application. — Let OA and OB represent two vectors of the 
 same kind simultaneously applied at the point O. Draw BC 
 B c parallel to OA, and AC parallel to OB, and 
 
 join OC. The diagonal OC represents in mag- 
 nitude and direction and point of application 
 o ~^a th e resultant of OA and OB. This principle 
 
 was discovered with reference to force, but it applies to any 
 vector quantity coming under the above conditions. 
 
 Take the direction of OA for the initial direction ; the di- 
 rection of any other vector will be sufficiently denoted by the 
 angle round which. the initial direction has to be turned in 
 order to coincide with it. Thus OA may be denoted by 
 fjo, OB by/ 2 /^, OC by//0. From the geometry of the fig- 
 ure it follows that 
 
 f^/S+f; + 2A/.COS*. 
 
 and tan = 
 
 /.-h/.cos*; 
 
 /, sin S 
 
 hence OC = Vf* + / a 2 + 2fJ, cos V, /tan ^ ^ ^ & . 
 
 Example. — Let the forces applied at a point be 2/0 and 
 
 3/60 . Then the resultant is ^4 + 9+ I2X| /tarr 1 - — ^ 
 = 4.36/36!^. 
 
 If the first component is given as/,/0,, then we have the 
 more symmetrical formula 
 
 OC = •/,'+/.■+ */,/. co, (#..-0.) l^ JZl'XiZX - 
 
 When the components are equal, the direction of the re- 
 sultant bisects the angle formed by the vectors ; and the mag- 
 nitude of the resultant is twice the projection of either compo- 
 nent on the bisecting line. The above formula reduces to 
 
 OC = 2/ cos 4 l d -\ 
 2/ 2 
 
ADDITION OF COPLANAR VECTORS. 11 
 
 Example. — The resultant of two equal alternating electro- 
 motive forces which differ 120 in phase is equal in magnitude 
 to either and has a phase of 6o°. 
 
 Given a vector and one component, to find the other com- 
 ponent. — Let OC represent the resultant, and OA the compo- 
 nent. Join AC and draw OB equal and B c 
 parallel to AC. The line OB represents 
 the component required, for it is the only ,/' 
 line which combined with OA gives OC A ' o ~*A- 
 as resultant. The line OB is identical with the diagonal of the 
 parallelogram formed by OC and OA reversed ; hence the rule 
 is, " Reverse the direction of the component, then compound 
 it with the given resultant to find the required component." 
 Let f/0 be the vector and fjo one component ; then the 
 ■other component is 
 
 m = *y-+/.- - *//. cos »Mn _/+ n / C0S 9 
 
 Given the resultant and the directions of the two compo- 
 nents, to find the magnitude of the components. — The resultant 
 is represented by OC, and the directions by OX and OY. 
 Yr From C draw CA parallel to OY, and CB 
 
 parallel to OX ; the lines OA and OB cut 
 off represent the required components. It 
 is evident that OA and OB when com- 
 pounded produce the given resultant OC, 
 and there is only one set of two components which produces 
 a given resultant ; hence they are the only pair of components 
 having the given directions. 
 
 Let//0 be the vector and /d l and /d i the given directions. 
 
 Then 
 
 / +/. cos (0, - t ) =/cos (d - 0,), 
 
 f x cos (0, - 6,) +/. = /cos (0, - 8), 
 from which it follows that 
 
 {cos (6 - 0.) - cos (0, - ff) cos (0, - 0,) } 
 7l J i -cos a (0 2 - 0,) 
 
12 VECTOR ANALYSIS AND QUATERNIONS. 
 
 For example, let 100/60 , /30 , and /90 be given ; then 
 . cos 30 
 
 A = 100 
 
 1 -(- cos 6o°* 
 
 Composition of any Number of Vectors applied at a com- 
 mon Point. — The resultant may be found by the following 
 graphic construction : Take the vectors in any order, as A, B, C. 
 From the end of A draw B' equal and par- 
 allel to B, and from the end of B' draw C 
 )B equal and parallel to C\ the vector from 
 the beginning of A to the end of C is the 
 resultant of the given vectors. This follows 
 ~a ^ by continued application of the parallelo- 
 gram construction. The resultant obtained is the same, what- 
 ever the order; and as the order is arbitrary, the area enclosed 
 has no physical meaning. 
 
 The result may be obtained analytically as follows : 
 Given A/0, + / 2 /0 a + fj± % + . . . + /, /0„ 
 
 Now fj\ =/ lC os » 1 /o+/ 1 sin Q x [\ 
 
 Similarly fJ A = /. cos BJo +/. sin , 2 /| 
 
 lit 
 and fn/On = f« cos n /o ~\-f n sin 0„ / — . 
 
 Hence 2{//d\ = |^/cos 0} /o + {^/sin #} /j 
 
 = |/(5/cos6/)«+(2/sin6f)' . tan- 1 ^^^- 
 
 In the case of a sum of simultaneous vectors applied at a com- 
 mon point, the ordinary rule about the transposition of a term in 
 an equation holds good. For example, if A -\-B + C — o, then 
 A + B - ~ C, and A + C = - £, and B + C = - A, etc. 
 This is permissible because there is no real order of succession 
 among the given components.* 
 
 * This does not hold true of a sum of vectors having a real order of succes- 
 sion. It is a mistake to attempt to found space-analysis upon arbitrary formal 
 
ADDITION OF COPLANAR VECTORS. IS 
 
 Composition of Successive Vectors. — The composition of 
 successive vectors partakes more of the nature of multiplica- 
 tion than of addition. Let A be a vector start- A 
 ing from the point O, and B a vector starting 
 from the end of A. praw the third side OP, 
 and from O draw a vector equal to B, and from 
 its extremity a vector equal to A. The line OP is not the 
 complete equivalent of A -f- B ; if it were so, it would also be 
 the complete equivalent of B -{- A. But A -\- B and B -\-A 
 determine different paths; and as they go oppositely around, 
 the areas they determine with OP have different signs. The 
 diagonal OP represents A -\- B only so far as it is consid- 
 ered independent of path. For any number of successive 
 vectors, the sum so far as it is independent of 
 path is the vector from the initial point of the 
 first to the final point of the last. This is also 
 true when the successive vectors become so small 
 as to form a continuous curve. The area between 
 the curve OPQ and the vector OQ depends on the path, and 
 has a physical meaning. 
 
 Prob. i. The resultant vector is 1 23/45 °, and one component 
 is 100/0 ; find the other component. 
 
 Prob. 2. The velocity of a body in a given plane is 200 /75 , and 
 one component is 100/25 ; find the other component. 
 
 Prob. 3. Three alternating magnetomotive forces are of equal 
 virtual value, but each pair differs in phase by 120 ; find the re- 
 sultant. (Ans. Zero.) 
 
 Prob. 4. Find the components of the vector 100/70 in the direc- 
 tions 20 and ioo°. 
 
 Prob. 5. Calculate the resultant vector of 1/10 , 2/20 , 3/30 , 
 4 /40° - 
 
 Prob. 6. Compound the following magnetic fluxes: h sin /// -)- 
 h sin {nt — i2o°)/i2o° + h sin (nt — 240°)/24o°. (Ans. §/z int.) 
 
 laws; the fundamental rules must be made to express universal properties of the 
 thing denoted. In this chapter no attempt is made to apply formal laws to 
 directed quantities. What is attempted is an analysis of these quantities. 
 
14 VECTOR ANALYSIS AND QUATERNIONS. 
 
 Prob. 7. Compound two alternating magnetic fluxes at a point, 
 
 a cos nt /o and a sin nt /— . (Ans. a /fit.) 
 - / 2 
 
 Prob 8. Find the resultant of two simple alternating electromo- 
 tive forces 100/20 and 50/75 . 
 
 Prob. 9. Prove that a uniform circular motion is obtained by 
 compounding two equal simple harmonic motions which have the 
 space-phase of their angular positions equal to the supplement of the 
 time-phase of their motions. 
 
 Art. 3. Products of Coplanar Vectors. 
 
 When all the vectors considered are confined to a common 
 plane, each may be expressed as the sum of two rectangular 
 components. Let i and/ denote two directions in the plane at 
 right angles to one another ; then A = a x i -j- a J, B = b x i -f- bj, 
 R = xi-\-yj. Here i and j are not unit-vectors, but rather 
 signs of direction. 
 
 Product of two Vectors. — Let A = aj-\-aJ and B = b t i-\-bJ 
 be any two vectors, not necessarily of the same kind physically. 
 We assume that their product is obtained by applying the 
 distributive law, but we do not assume that the order of the 
 factors is indifferent. Hence 
 AB = {a x i + aJ){bj-\- bj) = afiji + aJ?Jj-\- a x bjj-\-a % bJi. 
 
 If we assume, as suggested by ordinary algebra, that the 
 square of a sign of direction is -j-, and further that the product 
 of two directions at right angles to one another is the direction 
 normal to both, then the above reduces to 
 
 AB — a x b x + tf A + (« A — aj) x )k. 
 
 Thus the complete product breaks up into two partial 
 products, namely, a x b x -J- aj) % which is independent of direc- 
 tion, and (a x b 2 — aj? x )k which has the axis of the plane for 
 direction.* 
 
 * A common explanation which is given of ij = k is that i is an operator,/ an 
 operand, and k the result. The kind of operator which i is supposed to denote 
 is a quadrant of turning round the axis i ; it is supposed not to be an axis, but 
 a quadrant of rotation round an axis. This explains the result ij = k, but 
 unfortunately it does not explain ii — -f- ; for it would give ii = i. 
 
PRODUCTS OF COPLANAR VECTORS. 
 
 15 
 
 Scalar Product of two Vectors. — By a scalar quantity is 
 meant a quantity which has magnitude and may be positive or 
 negative but is destitute of direction. The former partial 
 product is so called because it is of such a nature. It is 
 denoted by SAB where the symbol S, being in Roman type, 
 denotes, not a vector, but a function of the 
 vectors A and B. The geometrical mean- 
 ing of SAB is the product of A and the 
 orthogonal projection of B upon A. Let 
 OP and OQ represent the vectors A and B; 
 draw QM and NL perpendicular to OP. 
 
 Then 
 
 a 
 
 (OP)(OM) = (OP)(OL) + (OP)(LM), 
 
 = a < b. r K~\* 
 
 ( 'a ' 2 a ) 
 
 = a l b 1 -\- a&. 
 
 Corollary I. — SB A = SAB. For instance, let A denote a 
 force and B the velocity of its point of application ; then SAB 
 denotes the rate of working of the force. The result is the 
 same whether the force is projected on the velocity or the 
 velocity on the force. 
 
 Example I. — A force of 2 pounds East -(- 3 pounds North is 
 moved with a velocity of 4 feet East per second -|- 5 feet North 
 per second ; find the rate at which work is done. 
 
 2X4+3X5=23 foot-pounds per second. 
 
 Corollary 2. — A" 1 =* a? -f- a* — a 2 . The square of any vector 
 is independent of direction ; it is an essentially positive or 
 signless quantity ; for whatever the direction of A, the direction 
 of the other ^4 must be the same; hence the scalar product 
 cannot be negative. 
 
 Example 2. — A stone of 10 pounds mass is moving with a 
 velocity 64 feet down per second -j- 100 feet horizontal per 
 second. Its kinetic energy then is 
 
 — (64'+ ioo") foot-poundals, 
 
16 VECTOR ANALYSIS AND QUATERNIONS. 
 
 a quantity which has no direction. The kinetic energy due to 
 
 64* 
 
 the downward velocity is 10 X — and that due to the hori- 
 zontal velocity is — X ioo 2 ; the whole kinetic energy is ob- 
 tained, not by vector, but by simple addition, when the com- 
 ponents are rectangular. 
 
 Vector Product of two Vectors. — The other partial product 
 
 from its nature is called the vector product, and is denoted by 
 
 VAB. Its geometrical meaning is the 
 
 product of A and the projection of B which 
 
 is perpendicular to A, that is, the area of 
 
 the parallelogram formed upon A and B. 
 
 Let OP and OO represent the vectors A 
 
 and B, and draw the lines indicated by the 
 
 figure. It is then evident that the area 
 
 of the triangle OPQ = aj> % — ^a t q t — \b x b^ — \{a x — b,){b. 2 — a,), 
 
 = \{aj), - aj) x ). 
 
 Thus (#i# 9 — ajb^)k denotes the magnitude of the parallelo- 
 gram formed by A and B and also the axis of the plane in 
 which it lies. 
 
 It follows that MBA = — VAB. It is to be observed 
 that the coordinates of A and B are mere component vectors, 
 whereas A and B themselves are taken in a real order. 
 
 Example. — Let A = (loi -\- nj) inches and B = (52 + 127*) 
 inches, then VAB = (120— $$)k square inches; that is, 65 
 square inches in the plane which has the direction k for axis. 
 
 If A is expressed as aa and B as bft, then SAB = ab cos aft, 
 where a/3 denotes the angle between the directions a and ft. 
 
 Example. — The effective electromotive force of 100 volts 
 per inch /90 along a conductor 8 inch /45 is SAB = 8 X 100 
 cos/45 /90 volts, that is, 800 COS45 volts. Here /45 indicates 
 the direction a and /90 the direction (3, and /45 /90 means 
 the angle between the direction of 45 and the direction of 90 . 
 
 Also VAB = ab sin aft . ~aft, where aft denotes the direction 
 which is normal to both a and ft, that is, their pole. 
 
PRODUCTS OF COPLANAR VECTORS. 17 
 
 Example. — At a distance of 10 feet /30 there is a force of 
 IOO pounds /6o°. The moment is VAB 
 
 = 10 X 100 sin /30 /6o° pound-feet 90 / /90 
 = 1000 sin 30 pound-feet 90 / /90 . 
 Here 90 / specifies the plane of the angle and /90 the angle. 
 The two together written as above specify the normal k. 
 
 Reciprocal of a Vector. — By the reciprocal of a vector is 
 meant the vector which combined with the original vector pro- 
 duces the product -j- 1. The reciprocal of A is denoted 
 by A~\ Since AB = ab (cos a/3 -f- sin a/3 . a/3), b must equal 
 ^r 1 and /3 must be identical with a in order that the product 
 may be 1. It follows that 
 
 _ 1 aa aj + aj 
 
 J~L — a — — — - ; — • 
 
 a a a, -j- a 2 
 
 The reciprocal and opposite vector is — A~ l . In the figure 
 let OP = 2/3 be the given vector ; then OQ = \f$ is its recipro- 
 cal, and OR = \ ( — /3) is its reciprocal and 
 opposite.* R Q p 
 
 Example.— If A = 10 feet East -f 5 feet North, A~ x = 
 
 feet East + — feet North and — A~ l = feet 
 
 125 ' 125 125 
 
 East — — feet North. 
 125 
 
 Product of the reciprocal of a vector and another vector. — 
 A-'B = \AB, 
 
 (X 
 
 = ~2 \<*A + "A + (« A — aA)<*fi}> 
 
 b f . — 
 
 = - (cos a/3 -j- sin a/3 . a/3). 
 
 * Writers who identify a vector with a quadrantal versor are logically led to 
 define the reciprocal of a vector as being opposite in direction as well as recip- 
 rocal in magnitude. 
 
18 VECTOR ANALYSIS AND QUATERNIONS. 
 
 h h 
 
 Hence SA~*B = -cos a 8 and VA~ l B = -sin a8.a8. 
 a a ' 
 
 Product of three Coplanar Vectors. — Let A = aj + a^j, 
 
 B = bj -f- bj, C = cj -f- c 9 j denote any three vectors in a 
 
 common plane. Then 
 
 (AB)C = {{aA + a % b % ) + ifiA - afak}{c x i + cj) 
 
 = (a A + «A)fo* + C J) + («A - «A)(— V + ^/ )• 
 The former partial product means the vector £7 multiplied 
 by the scalar product of A and B ; while the 
 latter partial product means the comple- 
 mentary vector of C multiplied by the mag- 
 nitude of the vector product of A and B. 
 "o~~ — J If these partial products (represented by OP 
 and 00) unite to form a total product, the total product will be 
 represented by OR, the resultant of OP and OQ. 
 
 The former product is also expressed by SAB . C, where the 
 point separates the vectors to which the S refers ; and more 
 analytically by abc cos aft . y. 
 
 The latter product is also expressed by (VAB)C, which is 
 equivalent to V(VAB)C, because VAB is at right angles 
 
 to C. It is also expressed by abc sin at/3 . afiy, where afSy de- 
 notes the direction which is perpendicular to the perpendicular 
 to a and (3 and y. 
 
 If the product is formed after the other mode of association 
 we have 
 A{BC) = (aJ-\- aj){b,c x + V.) + (*.* + **/)(V. - K^k 
 = {b,c x + b 2 c,)(aj + a J) + {b,c 2 - b.c^aj - a J) 
 = SBC.A +VA(VBC). 
 
 The vector aj — a J is the opposite of the complementary 
 -vector of aj, -f- a* J- Hence the lattei partial product differs 
 with the mode of association. 
 
 Example.— Let A ( = i/o + 2/90 , B = 3/0 + 4/90° , 
 C = 5/0 -\- 6/90 . The fourth proportional to A, B, C is 
 
PRODUCTS OF COPLANAR VECTORS. 19> 
 
 (A-*B)C= I X T 3 +' X4 !5/g! + 6/9Q° } 
 
 I -j- 2 
 
 1X4-2X3 
 
 { -6/o° + $/ 9 o°\ 
 
 I' + 2' 
 
 = 134/0^+11.2/90°. 
 
 Square of a Binomial of Vectors. — If A -\- B denotes a 
 sum of non-successive vectors, it is entirely equivalent to the 
 resultant vector C. But the square of any vector is a positive 
 scalar, hence the square of A -\- B must be a positive scalar. 
 Since A and B are in reality components of one vector, the 
 square must be formed after the rules for the products of rect- 
 angular components (p. 432). Hence 
 
 (A +B) 2 = {A + B){A + B), 
 
 = A' + AB + BA + B\ 
 
 = A 2 + B 1 + SAB + SB A + VAB + NBA, 
 
 = A* + B* + 2SAB. 
 
 This may also be written in the form 
 
 a 2 -f- b 2 -f 2ab cos a/3. 
 
 But when A -\- B denotes a sum of successive vectors, there 
 is no third vector C which is the complete equivalent ; and con- 
 sequently we need not expect the square to be a scalar quan- 
 tity. We observe that there is a real order, not of the factors, 
 but of the terms in the binomial; this causes both product 
 terms to be AB, giving 
 
 {A + B) 2 = A % + 2AB + B 2 
 
 = A 2 +B 2 + 2SAB + 2VAB. 
 The scalar part gives the square of the length of the third 
 side, while the vector part gives four times the area included 
 between the path and the third side. 
 
 Square of a Trinomial of Coplanar Vectors. — Let .4 -J- B -j- 
 C denote a sum of successive vectors. The product terms must 
 be formed so as to preserve the order of the vectors in the tri- 
 nomial ; that is, A is prior to B and C, and B is prior to C. 
 
20 VECTOR ANALYSIS AND QUATERNIONS. 
 
 Hence 
 
 (A + B + Cf = A' 4- B* + C + 2AB -\-2AC-\- 2BC, 
 
 = a 2 + ^ 2 + c 2 + 2(s^^ + s^r + s^o, (1) 
 
 4- 2(V^^ + VA C + V£Q. (2) 
 
 Hence S(^+^+Q 2 = (1) 
 
 = a 2 -f- £ 9 + ^ 2 + 2<a: ^ cos a /^ + 2ac cos ^T + 2 ^ cos @Y 
 
 and V(^+^+6:) 2 = (2) 
 
 = {2^ sin a/3 -f- 2«£ sin a^ -}- 2^ sin /fy/f. afi 
 
 The scalar part gives the square of the vector from the be- 
 c ginning of A to the end of C and is all that exists 
 when the vectors are non-successive. The vector 
 g part is four times the area included between the 
 successive sides and the resultant side of the 
 a polygon. 
 
 Note that it is here assumed that V(A + B)C '= VAC-\- 
 VBC, which is the theorem of moments. Also that the prod- 
 uct terms are not formed in cyclical order, but in accordance 
 with the order of the vectors in the trinomial. 
 
 Example.— Let A = 3/^ B = 5 /30 , C = 7 /45° ; find the 
 area of the polygon. 
 
 ±V{AB+ AC + BC), 
 = i{i5sin/o/30° + 2i sin/o/45° + 35 sin /30 /45 }, 
 
 = 375 + 742 + 4-53 = 157- 
 
 Prob. 10. At a distance of 25 centimeters /20 there is a force 
 of 1000 dynes /8o°; find the moment. 
 
 Prob. 11. A conductor in an armature has a velocity of 240 
 inches per second /300 and the magnetic flux is 50,000 lines per 
 square inch /o; find the vector product. 
 
 (Ans. 1.04 X io T lines per inch per second.) 
 
 Prob. 12. Find the sine and cosine of the angle between the 
 directions 0.8141 E. + 0.5807 N., and 0.5060 E. + 0.8625 N. 
 
 Prob. 13. When a force of 200 pounds /270 is displaced by 
 10 feet /30 , what is the work done (scalar product) ? What is the 
 meaning of the negative sign in the scalar product ? 
 
COAXIAL QUATERNIONS. 21 
 
 Prob. 14. A mass of ioo pounds is moving with a velocity of 30 
 feet E. per second -f- 50 feet SE. per second; find its kinetic energy. 
 
 Prob. 15. A force of 10 pounds /45 is acting at the end of 8 
 feet /200 ; find the torque, or vector product. 
 
 Prob. 16. The radius of curvature of a curve is 2/0 + 5/90 ; 
 find the curvature. \ (Ans. .03/0° -f- .17/90 .) 
 
 Prob. 17. Find the fourth proportional to 10/0 + 2/90 
 8/o° - 3 /9o_°, and 6/o_° + 5 /V°. 
 
 Prob. 18. Find the area of the polygon whose successive sides 
 are 10/30 , 9/100 , 8/180 , 7/225 . 
 
 Art. 4. Coaxial Quaternions. 
 
 By a " quaternion " is meant the operator which changes 
 one vector into another. It is composed of a magnitude and 
 a turning factor. The magnitude may or may not be a mere 
 ratio, that is, a quantity destitute of physical dimensions ; for 
 the two vectors may or may not be of the same physical kind. 
 The turning is in a plane, that is to say, it is not conical. For 
 the present all the vectors considered lie in a common plane ; 
 hence all the quaternions considered have a common axis.* 
 
 Let A and R be two coinitial vectors ; the direction normal 
 to the plane may be denoted by /?. The operator which 
 changes A into R consists of a scalar multiplier 
 and a turning round the axis /?. Let the former be 
 denoted by r and the latter by fi e , where 6 denotes 
 the angle in radians. Thus R = rfPA and recip- 
 rocally A = -6- d R. Also Lr = r6 6 and ±A = -B~ 6 . 
 3 f> A r R r r 
 
 The turning factor ft 9 may be expressed as the sum of two 
 component operators, one of which has a zero angle and the 
 other an angle of a quadrant. Thus 
 
 0° = cos 6 . /3° + sin 6 . p'\ 
 
 * The idea of the "quaternion " is due to Hamilton. Its importance may 
 be judged from the fact that it has made solid trigonometrical analysis possible. 
 It is the most important key to the extension of analysis to space. Etymologi- 
 cally "quaternion" means denned by four elements; which is true in space • in 
 plane analysis it is denned by two. 
 
22 VECTOR ANALYSIS AND QUATERNIONS. 
 
 When the angle is naught, the turning-factor may be 
 omitted ; but the above form shows that the equation is 
 homogeneous, and expresses nothing but the equivalence of a 
 given quaternion to two component quaternions.* 
 
 Hence rfi 9 = r cos -\-r s\r\ . fi"' 2 
 
 and r/3'A = pA -\-qp«l*A 
 
 = pa . a -\- qa . fi n/2 a. 
 The relations between r and 6, and p and q, are given by 
 
 r = Vf~+7, e = tan - x t 
 
 q 
 
 Example. — Let E denote a sine alternating electromotive 
 force in magnitude and phase, and / the alternating current in 
 magitude and phase, then 
 
 E = (r + 27tnl . fi"/ 2 )/, 
 where r is the resistance, / the self-induction, n the alternations 
 per unit of time, and /? denotes the axis of the plane of repre- 
 sentation. It follows that E = rl -\- 2-nnl . fi n / 2 f; also that 
 
 I- l E = r-\-27t1ll. /S^ 2 , 
 that is, the operator which changes the current into the elec- 
 tromotive force is a quaternion. The resistance is the scalar 
 part of the quaternion, and the inductance is the vector part. 
 Components of the Reciprocal of a Quaternion. — Given 
 •R=(p + g.p"*)A, 
 
 then A= P + 9-P"> R 
 
 p-q. F* R 
 
 {P + q.p"*)(p-q.p"<) 
 R 
 
 p— q . /3 n / z 
 
 * In the method of complex numbers ^/a is expressed by i, which stands 
 for \/ — i. The advantages of using the above notation are that it is capable 
 of being applied to space, and that it also serves to specify the general turning 
 factor yff e as well as the quadrantal turning factor fi*fr. 
 
COAXIAL QUATERNIONS. 23' 
 
 Example. — Take the same application as above. It is im- 
 portant to obtain / in terms of E. By the above we deduce 
 that from E = (r -f- 2rrnl . /3"/ 2 )I 
 
 /= | r - 2nnl 6^\e 
 
 Addition of Coaxial Quaternions. — If the ratio of each of 
 several vectors to a constant vector A is given, the ratio of 
 their resultant to the same constant vector is obtained by tak- 
 ing the sum of the ratios. Thus, if 
 
 Rn = (A + 9n ■ ^)A, 
 
 then 2 R = { 2p + (2g) . ^}A, 
 
 and reciprocally 
 
 A _ 2p- {2g) . F» 
 
 (2py + {2gy *•"- 
 
 Example. — In the case of a compound circuit composed 
 of a number of simple circuits in parallel 
 
 _ r,-2nnl ,.pl* r 9 - 2nnl 9 . (3^ 
 
 Jl ~ r? + {2itnyi? ' 2 ~~ rJ + ^Ttnyi? 11 " ClC '> 
 
 therefore, 21 — 2 \ „ , , — '-^rw X E 
 
 { r +(27r/z) 2 / 2 ) 
 
 [ \r -\-{27t7iyr) r -\-{27tnyi 2 r j 
 
 and reciprocally 
 
 ^( , , / rra) + 2 **^(— _, _) . /J»/i 
 
 ^ V + (27r«)/V ' \r 2 -\-(27tnyPJ 
 
 E = i — v r^i — y—2/* 
 
 \ 2 r* + {2nnyr ) + ^^ ^ V + ^V' J 
 
 Product of Coaxial Quaternions. — If the quaternions which 
 
 change ^4 to 7?, and R to i?', are given, the quaternion which 
 
 changes A to R' is obtained by taking the product of the given 
 
 quaternions. 
 
 *This theorem was discovered by Lord Rayleigh; Philosophical Magazine, 
 May, 1886. See also Bedell & Crehore's Alternating Currents, p. 238. 
 
24 VECTOR ANALYSIS AND QUATERNIONS. 
 
 Given R = r/3°A = {p-\-q. fi" /z )A 
 
 and R! = r' §»' R = (/ + q' . P*'*)R, 
 
 then R' = rS jP+*' A ={{pp' - qq') + (/?' +p'q) . /3"/*}A. 
 
 Note that the product is formed by taking the product of 
 the magnitudes, and likewise the product of the turning fac- 
 tors. The angles are summed because they are indices of the 
 common base /?.* 
 
 Quotient of two Coaxial Quaternions. — If the given qua- 
 ternions are those which change A to R, and A to R', then that 
 which changes R to R f is obtained by taking the quotient of 
 the latter by the former. 
 
 Given R = r/3 6 A = {p -f- q . ft"/*)A 
 and R! = r'j3<>'A = \p' -f q' . ^)A t 
 
 then R' = r -f5»'-»R, 
 
 r 
 
 ._ (PP' + qf) + (pg'-p'q).p" , p 
 
 p' + e' 
 
 Prob. 19. The impressed alternating electromotive force is 200 
 volts, the resistance of the circuit is 10 ohms, the self-induction is 
 •3-ro henry, and there are 60 alternations per second ; required the 
 current. (Ans. 18.7 amperes /— 20 42'.) 
 
 Prob. 20. If in the above circuit the current is 10 amperes, find 
 the impressed voltage. 
 
 Prob. 21. If the electromotive force is no volts /0 and the cur- 
 rent is 10 amperes /B — \n , find the resistance and the self-induc- 
 tion, there being 1 20 alternations per second. 
 
 Prob. 22. A number of coils having resistances r v r v etc., and 
 self-inductions l t , / 2 , etc., are placed in series ; find the impressed 
 electromotive force in terms of the current, and reciprocally. 
 
 *Many writers, such as Hayward in "Vector Algebra and Trigonometry," 
 and Stringham in " Uniplanar Algebra," treat this product of coaxial quater- 
 nions as if it were the product of vectors. This is the fundamental error in the 
 Argand method. 
 
ADDITION OF VECTORS IN SPACE. 25 
 
 Art. 5. Addition of Vectors in Space. 
 
 A vector in space can be expressed in terms of three inde- 
 pendent components, and when these form a rectangular set 
 the directions of resolution are expressed by i,j, k. Any vari- 
 able vector R may be expressed as R = rp = xi+yj -\-zk, and 
 any constant vector B may be expressed as 
 B = bj3 = b 1 z + bJ+b 9 k. 
 
 In space the symbol p for the direction involves two ele- 
 ments. It may be specified as 
 
 xi -f- yj ' + zk 
 P= S+f + z*' 
 where the three squares are subject to the condition that their 
 sum is unity. Or it may be specified by this notation, 0//6 1 , 
 a generalization of the notation for a plane. The additional 
 angle <p/ is introduced to specify the plane in which the angle 
 from the initial line lies. 
 
 If we are given R in the form r<p//9, then we deduce the 
 other form thus : 
 
 R = r cos 6 . i -\- r sin 6 cos <p .j -\- r sin 8 sin . k. 
 If R is given in the form xi -f- yj ' -\- 2k, we deduce 
 
 r = 4/V +/ -f z* tan- 1 - / tan- 1 -f- 
 
 For example, B = 10 3Q°/ /45 
 
 = 10 cos 45 . i-\- 10 sin 45 cos 30 ./■+ 10 sin 45 sin 30 . k. 
 
 Again, from C = 3? '+ 4/+ 5^ we deduce 
 
 ..V41 
 
 C= V9 + 16+ 25 tan" 1 " /I tan" 
 = 7.07 51^47/64^9. 
 
 To find the resultant of any number of component vectors 
 applied at a common point, let R lf R q , . . . R H represent the n 
 vectors or, 
 
26 VECTOR ANALYSIS AND QUATERNIONS.. 
 
 R n = xj + y n j -\- z n k ; 
 then 2R = {2x)i + (2y)f + (2z)k 
 
 and r = V(2x) 2 + {2y)* + (2z)\ 
 
 2z , n V{2yy + (2zy 
 
 tan0 = -^ and tan d = v JJ — '-. 
 
 Successive Addition. — When the successive vectors do not 
 lie in one plane, the several elements of the area enclosed will 
 lie in different planes, but these add by vector addition into a 
 resultant directed area. 
 
 Prob. 23. Express A = 4/ — 5/ + 6k and B = 52 + 6/ — "jk in 
 the form r07/#. (Ans. 8.8 i^7/6 3 ° and 10.5 3~n7 /6i . 5 . ) 
 
 Prob. 24. Express C = 123 57° //i42° and ^ = 456 65°/ /2oo° 
 in the form #z -\- yj -\- zk. 
 
 71 / /7t 7t / / 7Z 
 
 Prob. 2^. Express -c = 100 — // - and F = 1000 — // •?— in 
 ° 4// 3 6 // ^4 
 
 the form #2 -\-yj + 2/£. 
 
 Prob. 26. Find the resultant of 10 20°//3o°, 20 3o°//4o°, and 
 
 30 4^7/V 5 - _ 
 
 Prob. 27. Express in the form r<p//6 the resultant vector of 
 it -\- 2/ — 3k, 41 — 5/ + 6£, and — 7/ + 8/ + 9^. 
 
 Art. 6. Product of two Vectors. 
 
 Rules of Signs for Vectors in Space. — By the rules i* = -{-, 
 J" = +, ij = k, and ji = — k we obtained (p. 432) a product of 
 two vectors containing two partial products, each of which has 
 the highest importance in mathematical and physical analysis. 
 Accordingly, from the symmetry of space we assume that the 
 following rules are true for the product of two vectors in space : 
 
 * = +> /" = +> & = +> 
 
 if = &> J k = h ki = y, 
 
 ji = — k, kj ' = — i, ik = — j. 
 
 The square combinations give results which are indepen- 
 
PRODUCT OF TWO VECTORS. 27 
 
 dent of direction, and consequently are summed by simple 
 addition. The area vector determined by 
 2 and/ can be represented in direction by k, 
 because k is in tri-dimensional space the axis 
 which is complementary to z and/. We also 
 observe that the three rules ij — k, jk = i, 
 ki =j are derived from one another by cyc- 
 lical permutation ; likewise the three rules 
 ji = — k, kj = — i, ik = — j. The figure shows that these 
 rules are made to represent the relation of the advance to the 
 rotation in the right-handed screw. The physical meaning of 
 these rules is made clearer by an application to the dynamo and 
 the electric motor. In the dynamo three principal vectors have 
 to be considered : the velocity of the conductor at any instant, 
 the intensity of magnetic flux, and the vector of electromotive 
 force. Frequently all that is demanded is, given two of these 
 directions to determine the third. Suppose that the direction 
 of the velocity is i, and that of the flux/, then the direction of 
 the electromotive force is k. The formula ij = k becomes 
 
 velocity flux = electromotive-force, 
 from which we deduce 
 
 flux electromotive-force = velocity, 
 and electromotive-force velocity = flux. 
 
 The corresponding formula for the electric motor is 
 current flux = mechanical-force, 
 from which we derive by cyclical permutation 
 
 flux force = current, and force current = flux. 
 
 The formula velocity flux = electromotive-force is much 
 handier than any thumb-and-finger rule ; for it compares the 
 three directions directly with the right-handed screw. 
 
 Example. — Suppose that the conductor is normal to the 
 plane of the paper, that its velocity is towards the bottom, and 
 that the magnetic flux is towards the left ; corresponding to 
 the rotation from the velocity to the flux in the right-handed 
 •screw we have advance into the paper : that then is the direc- 
 tion of the electromotive force. 
 
 Again, suppose that in a motor the direction of the current 
 
28 
 
 VECTOR ANALYSIS AND QUATERNIONS. 
 
 along the conductor is up from the paper, and that the mag- 
 netic flux is to the left ; corresponding to current flux we have 
 advance towards the bottom of the page, which therefore must 
 be the direction of the mechanical force which is applied to 
 the conductor. 
 
 Complete Product of two Vectors. — Let A == a x i-\-aJ -\-a % k 
 and B = b x i-\-bJ -\- b 3 k be any two vectors, not necessarily 
 of the same kind physically, Their product, according to the 
 rules (p. 444), is 
 
 AB = (aj + a J -f a 3 k){b x i -f- bj + b,k), 
 = a x b x ii-\- ajj^jj -j- a.bjzk, 
 
 + ajjjk + ajb t kj -\- a t b t ki + a folk + a x bjj + aj>ji 
 = a x b x + a 2 b 2 + a 3 b 3 , 
 
 + (a,b 3 - aj a )i+ [a 3 b x — a x b 3 )j-\- (a x b 2 — a 2 b x )k 
 = a x b x -{-a i b i -{-a 3 b 3 -\~ a x a 2 a 3 
 
 b x b 2 b 3 
 i j k 
 
 Thus the product breaks up into two partial products,, 
 namely, a x b x -\- aJ> % -\- a 3 b 3 , which is independent of direction, and 
 a x a 2 a 3 
 
 b x b 2 b 3 , which has the direction normal to the plane of 
 i j k 
 
 A and B. The former is called the scalar product, and the 
 latter the vector product. ■' 
 
 In a sum of vectors, the vectors are necessarily homogene- 
 ous, but in a product the vectors may be heterogeneous. By 
 making a 3 = b 3 = o, we deduce the results already obtained 
 for a plane. 
 
 Scalar Product of two Vectors. — The scalar product is de- 
 noted as before by SAB. Its geometrical 
 meaning is the product of A and the orthog- 
 onal projection of B upon A. Let OP rep- 
 resent A, and OQ represent B, and let OL, 
 P LM, and MN be the orthogonal projections 
 upon OP of the coordinates b x i, b 2 j, b 3 k re. 
 spectively. Then ON is the orthogonal pro- 
 jection of OQ and 
 
PRODUCT OF TWO VECTORS. 29 
 
 OP X ON = OP X (OL + LM + MN), 
 
 \ a a a j 
 
 = a x b x -f- « A + a*b 3 — SAB. 
 
 Example. — Let I the intensity of a magnetic flux be 
 B = b x i-\- bJ-\- b 3 k, and let the area be 5= s x i -f- sJ-\- s % k ; 
 then the flux through the area is SSB = b x s x -\- b % s^ -\- b 3 s % . 
 
 Corollary i. — Hence SB A = SAB. For 
 
 b x a x + d 9 a 9 + b 3 a 3 = a x b x -\- a,b, -\- a 3 b 3 . 
 
 The product of B and the orthogonal projection on it of A 
 is equal to the product of A and the orthogonal projection on 
 it of B. The product is positive when the vector and the pro- 
 jection have the same direction, and negative when they have 
 opposite directions. 
 
 Corollary 2. — Hence A* = a x ~\-a*-\-a 3 =<£. The square of 
 A must be positive ; for the two factors have the same direction. 
 
 Vector Product of two Vectors. — The vector product as 
 before is denoted by VAB. It means the product of A and 
 the component of B which is perpendicular to A, and is rep- 
 resented by the area of the parallelogram formed by A and B. 
 The orthogonal projections of this area upon the planes of jk, 
 ki, and if represent the respective components of the product. 
 For, let OP and OQ (see second figure of Art. 3) be the or- 
 thogonal projections of A and B on the plane of i andj ; then 
 the triangle OPQ is the projection of half of the parallelogram 
 formed hysA and B. But it is there shown that the area of 
 the triangle OPQ is \{a x b^ — ajb x ). Thus (a x b„ —a n b x )k denotes 
 the magnitude and direction of the parallelogram formed by 
 the projections of A and B on the plane of i and/. Similarly 
 (a 2 b 3 — a 3 b 2 )i denotes in magnitude and direction the projec- 
 tion on the plane of j and k, and (a 3 b x — a x b 3 )j that on the 
 plane of k and i. 
 
 Corollary 1.— Hence NBA = — NAB. 
 
 Example. — Given two lines A = ji — io;'-(- 3^ and B = 
 — gi-\-4j — 6k; to find the rectangular projections of the par- 
 allelogram which they define : 
 
30 VECTOR ANALYSIS AND QUATERNIONS. 
 
 VAB = (60 - 12)/ + (- 27 -f 42)7 + (28 - go)£ 
 = 48/ -f- 1 5/ — 62^. 
 
 Corollary 2. — If y2 is expressed as aa and B as £/?, then 
 S^.5 = ab cos «/? and VAB = ab sin or/? . aft, where a/? de- 
 notes the direction which is normal to both a. and fi, and 
 drawn in the sense given by the right-handed screw. 
 
 Example.— Given A = rcp//d and B = r'^Tf/d'. Then 
 
 SAB = rr' cos ^//J_^//0^ 
 
 = r/|cos cos 0' -f- sin 6 sin 0' cos (<p' — 0)}. 
 
 Product of two Sums -of non-successive Vectors. — Let A and 
 i? be two component vectors, giving the resultant A -\- B, and 
 let C denote any other vector having the same point of appli- 
 cation. 
 
 Let A = a x i -\- a J -f- a z k, 
 
 -A+B 
 
 B = bj+bJ+b;k, 
 
 C = c,i-\- cj + c 3 k. 
 Since A and B are independent of order, 
 A + B = {a, + 6 t )i + (A, + £,)./ + fa + W 
 consequently by the principle already established 
 
 S(^ + B)C = fa + £>, + fa + *,K + (a, + ^V, 
 
 = S^c7+S£C. 
 Similarly V(i4 + £)<7 = {fa + J,y, - fa + *X}i + etc. 
 
 = fa^ — *,*,)* + ( ^8 — K C & + • • • 
 
 = V^<r + V^(T. 
 
 Hence (A + B)C = AC+ BC. 
 
 In the same way it may be shown that if the second factor 
 consists of two components, C and D, which are non-successive 
 in their nature, then 
 
 (A + B){C + D) = AC+ AD + BC + BD. 
 
PRODUCT OF THREE VECTORS. 31 
 
 When A -j- B is a sum of component vectors 
 (A + BY = A* + B 2 + AB -\- BA 
 = A 2 + B> + 2SAB. 
 
 Prob. 28. The relative velocity of a conductor is S.W., and the 
 magnetic flux is N.W.; what is the direction of the electromotive 
 force in the conductor ? 
 
 Prob. 29. The direction of the current is vertically downward, 
 that of the magnetic flux is West; find the direction of the mechani- 
 cal force on the conductor. 
 
 Prob. 30. A body to which a force of 2/ + 3/ + 4k pounds is 
 applied moves with a velocity of 5/+ 6/+ 7k feet per second; find 
 the rate at which work is done. 
 
 Prob. 31. A conductor 8/+ 9/ + \ok inches long is subject to 
 an electromotive force of 11/+ 12/+ 13^ volts per inch; find the 
 difference of potential at the ends. (Ans. 326 volts.) 
 
 Prob. 32. Find the rectangular projections of the area of the 
 parallelogram defined by the vectors A = 12/— 23/'— 34^ and 
 ■B = -45/- 567 + 67^. 
 
 Prob. 33. Show that the moment of the velocity of a body with 
 respect to a point is equal to the sum of the moments of its com- 
 ponent velocities with respect to the same point. 
 
 Prob. 34. The arm is 9/+ ii/'-f- 13k feet, and the force applied 
 at either end is 17/ + 19/ + 23^ pounds weight; find the torque. 
 
 Prob. 35. A body of 1000 pounds mass has linear velocities of 50 
 feet per second 30° //45 , and 60 feet per second 6o //22°.5; find 
 its kinetic energy. 
 
 Prob. 36. Show that if a system of area-vectors can be repre- 
 sented by the faces of a polyhedron, their resultant vanishes. 
 
 Prob. 37. Show that work done by the resultant velocity is equal 
 to the sum of the works done by its components. 
 
 Art. 7. Product of Three Vectors. 
 
 Complete Product. — Let us take A = aj -f- a J -\- a 3 k, 
 B = b x i -f bj -\~ b % k, and C = c\i + cJ-\- c^k. By the product 
 of A, B, and C is meant the product of the product of A and 
 B with C, according to the rules p. 444). Hence 
 
 ABC = (aj), + a,b 2 + a 3 b 3 )(cj -f cj + c,k) 
 
 -HO* A - "A)i+ (#A - aA)j'+ ("A ~ *J>W\(c x i-\-cJ+ c t k) 
 = (a A + a A + a % b^{cj + cj -\- c % k) ( 1) 
 
82 
 
 VECTOR ANALYSIS AND QUATERNIONS. 
 
 + 
 
 a 2 a % 
 
 
 a % a 1 
 
 
 a x a, 
 
 K K 
 
 
 K K 
 
 
 K K 
 
 Ci c* ^ 
 
 i 
 
 
 J 
 
 
 k 
 
 (2) + 
 
 a x 
 
 a, a 3 
 
 K 
 
 Kb, 
 
 c, 
 
 c* c % 
 
 (3) 
 
 Example. — Let A = li -f- 2j-\- $k, B = 42 -f- 5/ -|- 6£, and 
 C= 71 + 8J+ 9&. Then 
 
 (i)=(4+io+i8)(7^ + 8/+9^)=32(72 + 8y+9^). 
 
 (2) = 
 
 -3 
 
 6 
 
 -3| 
 
 
 7 
 
 8 
 
 9 
 
 
 i 
 
 J 
 
 k\ 
 
 (3) = 
 
 1 2 
 
 3 
 
 — 0. 
 
 
 4 5 
 
 6 
 
 
 
 7 8 
 
 9 
 
 
 If we write A = ««, B = b/3, C = cy, then 
 
 ABC = abc cos a/3 . y (1) 
 
 -j- abc sin «•/? sin afiy . a/?;/ (2) 
 
 -f- abc sin a/3 cos ar/3;/, (3) 
 
 where cos a/3y denotes the cosine of the angle between the 
 
 directions a/3 and y, and afiy denotes the direction which is 
 
 normal to both a/3 and y. 
 
 We may also write 
 
 ABC = SAB. C+V(VAB)C+ S{VAB)C. 
 
 (1) (2) (3) 
 
 First Partial Product. — It is merely the third vector multi- 
 plied by the scalar product of the other two, or weighted by 
 that product as an ordinary algebraic quantity. If the direc- 
 tions are kept constant, each of the three partial products is 
 proportional to each of the three magnitudes. 
 
 Second Partial Product. — The second partial product may 
 be expressed as the difference of two products similar to the 
 first. For 
 
 V(VAB) C = {- ( V, + <VsK + (',*, + 'A)*, } • 
 
 +1 — (V. + V.K + 0v* a + c i a MJ 
 + {- OV, + h c *)*s + Mi + c^b % \k. 
 
PRODUCT OF THREE VECTORS. 
 
 33 
 
 By adding to the first of these components the null term 
 (b 1 c J a 1 — c x afi^)i we get — SBC . aj + SCA . bj, and by treating 
 the other two components similarly and adding the results we 
 obtain 
 
 V{VAB)C = - SBC . A + SCA . B. 
 
 The principle here proved is of great use in solving equa- 
 tions (see p. 455). 
 
 Example. — Take the same three vectors as in the preced- 
 ing example. Then 
 
 V(V;lff)C=-(28 + 40+54)(i*' + 2/+3*) 
 
 + (7 + i6 + 27)( 4 z-+5/ + 6£) 
 = 78/ + 6/ — 66k. 
 The determinant expression for this partial product may 
 also be written in the form 
 
 b, K 
 
 i J 
 
 \b a K 
 
 j k 
 
 + 
 
 a, a, 
 
 K b, 
 
 k i 
 
 It follows that the frequently occurring determinant expression 
 
 a, a, 
 
 b, K 
 
 d, d„ 
 
 + 
 
 a 2 a s 
 b„ b. 
 
 d n d. 
 
 + 
 
 a 3 a r 
 K b. 
 
 d v d, 
 
 means S(VAB)(VCD). 
 
 Third Partial Product. — From the determinant expression 
 for the third product, we know that 
 
 S(VAB)C=S(VBC)A = S(VCA)B 
 = - S{VBA)C = - S(VCB)A = - S{VAC)B. 
 Hence any of the three former may be expressed by SABC, 
 and any of the three latter by — SABC. 
 
 The third product S(VAB)C is represented by the vol- 
 ume of the parallelepiped formed by the vectors A, B, C 
 taken in that order. The line *VAB v,ab 
 represents in magnitude and direction 
 the area formed by A and B, and the 
 product of NAB with the projection 
 of C upon it is the measure of the 
 volume in magnitude and sign. Hence the volume formed 
 by the three vectors has no direction in space, but it is posi- 
 tive or negative according to the cyclical order of the vectors. 
 
34 VECTOR ANALYSIS AND QUATERNIONS. 
 
 In the expression abc sin a/3 cos a/3y it is evident that sin a/3 
 corresponds to sin 0, and cos a/3y to cos 0, in the usual for- 
 mula for the volume of a parallelepiped. 
 
 Example. — Let the velocity of a straight wire parallel to 
 itself be V = 1000/30 centimeters per second, let the intensity 
 of the magnetic flux be B = 6000 /90 lines per square cen- 
 timeter, and let the straight wire L — 15 centimeters 60 / /45 . 
 Then V VB = 6000000 sin 6o° 90 / /90 lines per centimeter per 
 second. Hence S{VVB)L =15 X 6000000 sin 6o° cos lines 
 per second where cos0 = sin 45 sin 6o°. 
 
 Sum of the Partial Vector Products. — By adding the first 
 and second partial products we obtain the total vector product 
 of ABC, which is denoted by V(ABC). By decomposing the 
 second product we obtain 
 
 V{ABC) = SAB. C - SBC . A + SCA . B. 
 By removing the common multiplier abc, we get 
 
 V(aj3y) = cos af3 . y — cos /3y . a -\~ cos ya . /3. 
 Similarly V(/3ya) — cos (3y . a — cos ya . /3 -f- cos a/3 . y 
 and V(ya/3) = cos ya . /3 — cos aj3 . y -f- cos j3y . a. 
 
 These three vectors have the same magnitude, for the 
 square of each is 
 cos 2 a/3 -J- cos 2 /3y -f cos 2 ya — 2 cos a/3 cos /3y cos ya, 
 that is, 1 -{S(a/3y)\\ 
 
 They have the directions respectively of a', 
 (3 r , y' , which are the corners of the triangle 
 whose sides are bisected by the corners a, 
 (3, y of the given triangle. 
 
 Prob. 38. Find the second partial product of 
 g 2o°//30°, 10 3o°//40°, n 45°/ /45° . Also the third partial 
 product. 
 
 Prob. 39. Find the cosine of the angle between the plane of 
 /,/+#/,/+ n x k and /„/ + m 2 j-\-n a k and the plane of lJ-\-m 3 j-\-nJt 
 and I J + mj -\- nfi. 
 
 Prob. 40. Find the volume of the parallelepiped determined by 
 the vectors ioo/+5q/' + 25^, 50/4- i°/ + 8o/£, and — 75/+ 407 — 8o£. 
 
COMPOSITION OF QUANTITIES. 35 
 
 Prob. 41. Find the volume of the tetrahedron determined by the 
 extremities of the following vectors : 3/ — 2/ -f- \k, — 4/ + 5/' — 7>£, 
 3/ — y — 2k, 8/ + 4/" — 3& 
 
 Prob. 42. Find the voltage at the terminals of a conductor when 
 its velocity is 1500 centimeters per second, the intensity of the mag- 
 netic flux is 7000 lines per square centimeter, and the length of the 
 conductor is 20 centimeters, the angle between the first and second 
 being 30 , and that between the plane of the first two and the direc- 
 tion of the third 6o°. (Ans- .91 volts.) 
 
 Probr 43. Let a = 2^7/10°, = 307/25°, V = 4^7/35 °- Find 
 Vafiy, and deduce Vftya and Vyafi. 
 
 Art. 8. Composition of Quantities. 
 
 A number of homogeneous quantities are simultaneously- 
 located at different points ; it is required to find how to add or 
 compound them. 
 
 Addition of $. Located Scalar Quantity. — Let m A denote a 
 mass m situated at the extremity of the radius- 
 vector A. A mass m — m may be introduced 
 at the extremity of any radius-vector R, so 
 
 that 
 
 m A = (m — m) R -(- m A 
 
 = m R -f- m A — m R 
 = m R + m(A — R). 
 Here A — R is a simultaneous sum, and denotes the radius- 
 vector from the extremity of R to the extremity of A. The 
 product m{A — R) is what Clerk Maxwell called a mass- vector, 
 and means the directed moment of m with respect to the ex- 
 tremity of R. The equation states that the mass m at the 
 extremity of the vector A is equivalent to the equal mass at 
 the extremity of R, together with the said mass-vector applied 
 at the extremity of R. The equation expresses a physical or 
 mechanical principle. 
 
 Hence for any number of masses, m l at the extremity of A l9 
 m 7 at the extremity of A^, etc., 
 
 2m A = 2m x + 2{m(A — R)\, 
 
36 VECTOR ANALYSIS AND QUATERNIONS. 
 
 where the latter term denotes the sum of the mass-vectors 
 treated as simultaneous vectors applied at a common point. 
 
 Since 2\m(A — R)} = 2mA — 2mR 
 
 = 2mA — R2m, 
 
 the resultant moment will vanish if 
 
 R = — tt; — , or R2m = 2mA 
 2 m 
 
 Corollary. — Let R = xi -j- yj -\- zk, 
 and A =aj -j- bj -f- £,£ ; 
 
 then the above condition may be written as 
 
 xi -\- yj -\- zk =■ ^ 
 
 1 ■'•' ' 2m 
 
 _ 2 (ma) . i . (2mb) .j . 2(mc) . k 
 2m 2m 2m ' 
 
 2 (in a) 2(mb) 2mc 
 
 therefore x=—^ — , y = — ^ — , z= — — 
 
 2m 2m 2m 
 
 Example. — Given 5 pounds at 10 feet 45°//30° and 8 
 pounds at 7 feet 6o°//45° ! find the moment when both masses 
 
 are transferred to 12 feet 75°//6o°. 
 
 m 1 A 1 = 5o(cos 30°?' -f- sin 30 cos 45°/+ sm 3°° sin 45°^)» 
 m 2 A^ = 56(cos 45°?-f- sin 45 cos 6o°j-\- sin 45 sin 60° k), 
 (m 1 -f- m^)R = i56(cos 6o°z -f- sin 6o° cos 75^' -f- sin 6o° sin 75°/£), 
 moment = m l A 1 -j- m 2 A^ — (m 1 -j- w 2 )-^. 
 
 Composition of a Located Vector Quantity. — Let F A de- 
 note a force applied at the extremity of the radius-vector A. 
 As a force F — F may introduced at the ex- 
 tremity of any radius-vector R, we have 
 
 F A -(F-F) R + F A 
 = F R + V(A - R)F 
 
 This equation asserts that a force F applied 
 at the extremity of A is equivalent to an equal force applied 
 at the extremity of R together with a couple whose magnitude 
 
COMPOSITION OF QUANTITIES. 37 
 
 and direction are given by the vector product of the radius- 
 vector from the extremity of R to the extremity of A and the 
 force. 
 
 Hence for a system of forces applied at different points, 
 such as F x at A x , F a at A 2 , etc., we obtain 
 
 2(F A ) = 2(F X ) + 2V(A - R)F 
 = (2F) R + 2V(A-R)F. 
 
 Since 2V(A - R)F = 2VAF— 2VRF 
 
 = 2VAF-VR2F 
 the condition for no resultant couple is 
 
 VR2F=2VAF, 
 
 which requires 2F to be normal to 2VAF. 
 
 Example. — Given a force it 4- 2/ -f- 3^ pounds weight at 
 A 1 + 5J-{-6k Ieet > an ^ a force of ji -\- gj -f- 1 1 k pounds weight 
 at \oi -\- 12/ -f- \\k feet; find the torque which must be sup- 
 plied when both are transferred to 2z -J- 5/ -\- 3k, so that the 
 effect may be the same as before. 
 
 VA x F x = v-6/ + 3k, 
 VA t F 9 = 6i- I2/4-6&, 
 2VAF=gi- iS/4-gk, 
 2F= Si 4- 11/ + 14/&, 
 VR2F=37t- 4j— i8£, 
 Torque = — 28/— 14 j 4- 27k. 
 By taking the vector product of the above equal vectors 
 with the reciprocal of .2.F we obtain 
 
 V{(V^^}=V{(2V^/^|. 
 
 By the principle previously established the left member 
 
 resolves into — R -j- SR^rp. 2F; and the right member is 
 
 equivalent to the complete product on account of the two 
 factors being normal to one another; hence 
 
 -R4- SR^ . 2F = 2(VAF)~; 
 
38 VECTOR ANALYSIS AND QUATERNIONS. 
 
 that is, R = ~2(VAF) + SR^? • 2F. 
 
 (I) (2) 
 
 The extremity of R lies on a straight line whose perpen- 
 dicular is the vector (i) and whose direction is that 
 of the resultant force. The term (2) means the 
 projection of R upon that line. 
 
 The condition for the central axis is that the 
 resultant force and the resultant couple should 
 have the same direction ; hence it is given by 
 V { 2VAF - VR2F\ 2F=o; 
 that is, V{VR2F)2F = V(2AF)2F. 
 
 By expanding the left member according to the same prin- 
 ciple as above, we obtain 
 
 — (2F) 2 R 4- SR2F. 2F = V{2AF)2F; 
 
 t s r y F 
 
 therefore R = ^p^2F(V2AF) + -^w . 2F 
 
 = v{i T yV2AF) + SR^ F .2F. 
 
 This is the same straight line as before, only no relation is 
 now imposed on the directions of 2F and 2VAF; hence there 
 always is a central axis. 
 
 Example. — Find the central axis for the system of forces 
 in the previous example. Since 2 F= 8z'-f- 11/ -j- 14A the 
 direction of the line is 
 
 V64 -j- 121 + 196' 
 
 Since ~ = 8' + 1 1/ + 14* and ^VAF = 9 i - l8/ + 9 £, the 
 2,-r 3 bI 
 
 perpendicular to the line is 
 
 Prob. 44. Find the moment at cioV Mo of IO pounds at 4 feet 
 io°//2o° and 20 pounds at 5 feet 3o / /i20° . 
 
SPHERICAL TRIGONOMETRY. 
 
 >0 
 
 Prob. 45. Find the torque for 4/ +37+ 2 k pounds weight at 
 2/ — 3/' + i£ feet, and 2/ — 1/ — i>£ pounds weight at — 3/ + 4/' + 5^ 
 feet when transferred to — 32 + 2/ — 4^ feet. 
 
 Prob. 46. Find the central axis in the above case. 
 
 Prob. 47. Prove that the mass-vector drawn from any origin to a 
 mass equal to that of the whole system placed at the center of mass 
 of the system is equal to the sum of the mass-vectors drawn from 
 the same origin to all the particles of the system. 
 
 Art. 9. Spherical Trigonometry. 
 
 Let i,j, k denote three mutually perpendicular axes. In 
 order to distinguish clearly between an axis and a quadrantal 
 version round it, let i ,j , k T 2 denote k 
 
 quadrantal versions in the positive sense 
 about the axes i,J, k respectively. The 
 directions of positive version are indicated ~j\ 
 by the arrows. 
 
 By 2 rr 'S 2 is meant the product of two 
 quadrantal versions round 2"; it is equiv- -k 
 
 alent to a semicircular version round i\ hence i r/ H v/ ' 1 = 1" = — . 
 Similarly/ r/2 / r/2 means the product of two quadrantal versions 
 round/, and/V /a =f = — • Similarly k w/ *k n/ * = F = -. 
 
 By z" r/ y r/2 is meant a quadrant round i followed by a quad- 
 rant round/; it is equivalent to the quadrant from/ to 2, that 
 is, fro — k n/ \ Butj n/ *i 7r/i is equivalent to the quadrant from — 2 
 to — /, that is, to k n/ \ Similarly for the other two pairs of 
 products. Hence we obtain the following 
 
 Rules for Versors. 
 
 7 '7r/ 2 -7r/ 2 
 
 -Va : n /i 
 
 Va Wa 
 
 j«/ij*/i _ k *&" = — 
 
 ' "", '2 
 
 fug!* _ _ ,-A k^f' 9 = i 
 
 
 7 7r/ 3 ^7r/ 3 ^.jt/j 
 
 l"*k~ U 
 
 ;w/a 
 
 -2 = — j , „ „ 
 
 The meaning of these rules will be seen from the follow 
 ing application. Lei li + tnj + nk denote any axis, then 
 
40 VECTOR ANALYSIS AND QUATERNIONS. 
 
 •(/*' + mj -\- nk)*/* denotes a quadrant of angle round that axis. 
 This quadrantal version can be decomposed into the three 
 rectangular components li n/i , mj n '*, nk 1 r/ " ; and these components 
 are not successive versions, but the parts of one version. Sim- 
 ilarly any other quadrantal version (I'i -f- m'j -j- n'kf'* can be 
 resolved into l'i n/i , m'j"''*, n'k n/ *. By applying the above rules, 
 we obtain 
 (/« + mj + nk)"'\l'i + m'j + rik? u 
 
 = (#*/« 4- mf f \ + nk w/% ){l'? /% + m'f /% + tf'F 78 ) 
 
 = — (11 ' -\- mm' -\- nn') 
 
 - (mri - m'nY 1 " - (»/' - « , /)/ /a - (/»«' - l'm)k n/ * 
 
 = — (//' -f- #z;tz' -|~ «»') 
 
 _ |( w y _ «'»),' 4- («/' - n'l)j-\-(lm! - /'m)k\ n/ \ 
 
 Product of Two Spherical Versors. — Let ft denote the axis 
 and b the ratio of the spherical versor PA, then the versor 
 itself is expressed by fi h . Similarly let y 
 denote the axis and c the ratio of the 
 spherical versor AQ, then the versor itself 
 is expressed by y c . 
 
 Now fi b =cosb + sin b . ff'\ 
 and y c = cos c -f- sin c . y n/2 ; 
 
 therefore 
 J3y = (cos b -f sin b . /3 w/a )(cos c + sin c . y w/a ) 
 
 — cos b cos £ -j- cos £ sin £ . y^* -f- cos £ sin £ . /3 ,r/ * 
 
 + sin bsinc. ^^y'\ 
 But from the preceding paragraph 
 
 fl<l*y*l* _ _ COS yffj, _ sin fiy . j^»/« . 
 
 therefore fi b y c = cos # cos c — sin £ sin c cos /?;/ (i) 
 
 -|- -jcos^sin^. y-f- cos £ sin b . ft — sin £ sin <:sin /?;/ . /^f^ 2 . (2) 
 The first term gives the cosine of the product versor ; it is 
 equivalent to the fundamental theorem of spherical trigonom- 
 etry, namely, 
 
 cos a = cos b cos c -f- sin b sin c cos A, 
 
SPHERICAL TRIGONOMETRY. 41 
 
 where A denotes the external angle instead of the angle in- 
 cluded by the sides. 
 
 The second term is the directed sine of the angle ; for the 
 square of (2) is equal to 1 minus the square of (1), and its di- 
 rection is normal to the plane of the product angle.* 
 
 Example.— Let J3 = 307 /45 ° and y = 607 /30 . Then 
 cos fiy = cos 45 cos 30 -4- sin 45 sin 30 cos 30 , 
 and sin fiy . fiy = Vfiy ; 
 
 but J3 = cos 45 i -f- sin 45 cos 30°/+ sin 45 s i n 30°^, 
 and y = cos 30 i -f- sin 30 cos 6o°j-\- sin 30 sin 6o° k ; 
 therefore 
 
 Vfiy= I sin 45 cos30°sin30°sin6o° 
 
 — sin 45 sin 30 sin 30 cos6o°}z' 
 -f- |sin45°sin 30 COS30 — COS45 sin 30 sin6o°}/ 
 -J- { cos 45 sin 30 cos 6o° — sin 45 cos 30 cos 30 }/£. 
 
 Quotient of Two Spherical Versors. — The reciprocal of a 
 given versor is derived by changing the sign of the index ; 
 y~ c is the reciprocal of y\ As /?* = cos b -f- sin b . /3 w/a , and 
 y~ c = cos £ — sin c .y" ', 
 fi b y~ c = cos £ cos £ -]- sin b sin £ cos /?j/ 
 
 + jcos c sin b . /3— cosb sin c.y -\~ sin <5 sin £ sin fiy . fiy j-"^ 9 * 
 
 Product of Three Spherical Versors. — Let 
 
 a a denote the versor PQ, fi b the versor QR, 
 
 and y c the versor RS ; then a a j3 b y c denotes 
 
 PS. Now «7?V P 
 
 Q 
 
 = (cos a -j- sin a . « ff/9 )(cos $ -f- sin b . /f /2 )(cos <: -f- sin c . y" 1 '*) 
 
 — cos a cos 3 cos <: (1) 
 
 + cos a cos b sin £. ^' r/a -{- cos a cos r sin b . /J" 79 
 
 -j- cos b cos £ sin « . a (2) 
 
 -f- cos a sin £ sin <: . {3 n/i y n/i -j- cos £ sin « sin c . a r/a y r/i 
 
 -f- cos <: sin « sin ^ . a"^' (3) 
 * Principles of Elliptic and Hyperbolic Analysis, p. 2. 
 
42 VECTOR ANALYSIS AND QUATERNIONS. 
 
 -J- sin a sin b sin c , a n/ *ft" y . (4)* 
 
 The versors in (3) are expanded by the rule already ob- 
 tained, namely, 
 
 fTl* Y *U _ _ cos p y _ sin p y . j^/A 
 
 The versor of the fourth term is 
 
 a "/*p«/y/> = _ ( cos a p + s i n a/S . ~^p"/*)y*/* 
 
 = — cos aft . y t/i -\-sm aft cos afty-\-sin a/3 sin a fty . afty n ' 2 . 
 
 Now sin a/3 sin a:/5}/ . <*/?}/ = cos ay . ft — cos fty . a (p. 45 1), 
 hence the last term of the product, when expanded, is 
 
 sin a sin b sin c\ — cos aft . y" U + cos ay . ft"/* 
 
 — cos fty . a n/ * -f- cos afty\. 
 Hence 
 cos a a ft b y c = cos # cos b cos £ — cos a sin £ sin c cos /?;/ 
 
 — cos b sin # sin £ cos ay — cos c sin a sin <5 cos aft 
 -f- sin # sin b sin £ sin «/3 cos afty, 
 
 and, letting Sin denote the directed sine, 
 
 Sin a a ft b y c = cos a cos b sin c .y -\- cos « cos c sin b . ft 
 
 -f- cos # cos £ sin « . « — cos a sin £ sin c sin /?;/ . /?;/ 
 
 — cos b sin « sin c sin #;/ . ay 
 
 — cos £ sin a sin # sin or/? . aft 
 
 — sin a sin b sinc\zosaft . y — cos a?^ . /5-j-cos /5/ . or}.*' 
 
 Extension of the Exponential Theorem to Spherical Trigo- 
 nometry. — It has been shown (p. 458) that 
 
 cos ft b y c = cos b cos c — sin b sin c cos fty 
 and 
 
 (sin ft b y c ) n/ * = cos c sin £ . /f /f + cos b sin c. y n/2 
 
 — sin b sin c sin fty . fty" . 
 
 Now cos b = 1 r -4- —r — 2t + etc. 
 
 2 ! 4 ! 6 ! 
 
 * In the above case the three axes of the successive angles are not perfectly- 
 independent, for the third angle must begin where the second leaves off. But 
 the theorem remains true when the axes are independent ; the factors are then- 
 quaternions in the most general sense. 
 
SPHERICAL TRIGONOMETRY. 43 
 
 b 3 b b 
 and sin b = b — —r + — r — etc. 
 
 Substitute these series for cos b, sin b, cos c, and sin c in 
 the above equations, multiply out, and group the homogeneous 
 terms together. It will be found that 
 
 cos (3 b y c = 1 — —{b 2 -f 2bc cos /3y + c*\ 
 
 + -\{ b k + 4b 3 c cos /3 r + 6£V + 4bc 5 cos /? r + c*\ 
 
 - ~{b e + 6£V cos /?x + I5*V + 2obV cos /? r 
 
 + is^V + 6bc & cos /? r + c<\ + . . ., 
 where the coefficients are those of the binomial theorem, the 
 only difference being that cos /3y occurs in all the odd terms 
 as a factor. Similarly, by expanding the terms of the sine, we 
 ■obtain 
 
 <Sin fiff* = b.ff /2 + c. y»/ z - be sin f3y . fiy n/2 
 
 -jj{b\f / *+sb*C.y" / * + lbc>.F<* + <».y^) 
 
 + -\{ be 3 + b*c\ sin 0y . jfy n/2 
 
 + ~-{b\ f?' 2 + $b*c . y /2 + lobY . /f /a 
 
 + lObV • y" /z + $bc* . /T /2 + ^ 5 . r ff/2 } 
 
 ~ ^T | ^ + ^V + ^ } Knfiy.fiP"*-. . . 
 
 By adding these two expansions together we get the ex« 
 pansion for (3 h y c , namely, 
 
 /3 6 y c =i-\-b.f /i + c.y n/2 
 
 - -\ ! V + 2^(cos /Jy -f sin /3y . Jy*' 2 ) + <:' f 
 
 -f -^ £ 4 -f- 4*V(cos /?;/ + sin /3y . /^/ /2 ) + 6£V 
 
 + 4 ^ 3 (cos /? r + sin fty . Jy" /2 ) -!_«*} + ,.. 
 
44 VECTOR ANALYSIS AND QUATERNIONS. 
 
 By restoring the minus, we find that the terms on the 
 second line can be thrown into the form 
 
 and this is equal to 
 
 where we have the square of a sum of successive terms. In a 
 similar manner the terms on the third line can be restored to 
 p . fi*l* _j_ $b*c . § y w/ * + 3bc* . /3 n/2 r n -f c" . y* { " /2 \ 
 
 that is, ±.{3.^ + c . r ^\\ 
 
 Hence 
 
 + j [ \b.^+c.y" / r + ±\b.f / * + c.y^\* + 
 
 Extension of the Binomial Theorem. — We have proved 
 
 above that //^V^ 2 = ^ /2 + ^/ 2 provided that the powers 
 
 of the binomial are expanded as due to a successive sum, that 
 
 is, the order of the terms in the binomial must be preserved. 
 
 Hence the expansion for a power of a successive binomial is 
 
 given by 
 
 |0 . /T 72 + c . y l% \" = b n . P" n/2 + nb n ~\c . $*-***/* y *l* 
 
 n(n— i) 
 + '-Ir-V./fr-'WDyv+etc. 
 
 * At page 386 of his Elements of Quaternions, Hamilton says: "In the 
 present theory of diplanar quaternions we cannot expect to find that the sum of 
 the logarithms of any two proposed factors shall be generally equal to the 
 logarithm of the product ; but for the simpler and earlier case of coplanar 
 quaternions, that algebraic property may be considered to exist, with due 
 modification for multiplicity of value." He was led to this view by not dis- 
 tinguishing between vectors and quadrantal quaternions and between simul- 
 taneous and successive addition. The above demonstration was first given in 
 my paper on " The Fundamental Theorems of Analysis generalized for Space." 
 It forms the key to the higher development of space analysis. 
 
COMPOSITION OF ROTATIONS. 
 
 45 
 
 Example.— Let b^= -^ and c=\, ft = 30°/M£> Y = 6o //30°. 
 {b . ^ -J- c . r n/2 y = -5^ + ^-1- 2^ cos (3y -4- 2^(sin /S^)" 78 } 
 
 = ~(-ih>+-h + 1\ cos /? r ) - &(sin ^)' r/a . 
 Substitute the calculated values of cos fiy and sin /3y (page 459). 
 Prob. 48. Find the equivalent of a quadrantal version round 
 
 V~z 1 1 
 
 -j -\ -j=k followed by a quadrantal version round 
 
 2 2 v 2 
 
 V 
 
 244 
 
 Prob. 49. In the example on p. 459 let b = 25 and c = 50 ; cal- 
 culate out the cosine and the directed sine of the product angle. 
 
 Prob. 50. In the above example calculate the cosine and the 
 directed sine up to and inclusive of the fourth power of the bino- 
 mial. (Ans. cos = .9735.) 
 
 Prob. 51. Calculate the first four terms of the series when 
 
 b = -h,c = Tfa,fi = 07/3 y = 9^7/V!- 
 
 Prob. 52. From the fundamental theorem of spherical trigo- 
 nometry deduce the polar theorem with respect to both the cosine 
 and the directed sine. 
 
 Prob. 53. Prove that if a a , fi h , y c denote the three versors of a 
 spherical triangle, then 
 
 sin fiy _ sin ya sin afi 
 
 sin a 
 
 sin b 
 
 sin c 
 
 Art. 10. Composition of Rotations. 
 
 A version refers to the change of direction of a line, but a 
 rotation refers to a rigid body. The composi- B 
 tion of rotations is a different matter from the 
 composition of versions. 
 
 Effect of a Finite Rotation on a Line. — Sup- 
 pose that a rigid body rotates 6 radians round 
 the axis (3 passing through the point O, and that 
 R is the radius-vector from O to some particle. 
 In the diagram OB represents the axis /3, and 
 OP the vector R. Draw OK and OL, the rectangular compo- 
 nents of R. 
 
 fi*R = (cos -f sin 6 . jf' % )rp 
 
46. VECTOR ANALYSIS AND QUATERNIONS. [Chap. IX. 
 
 = r(cos + sin . f? /2 )(cos fip./3 + sin fip . ]TpP) 
 = rfcos fip. /?-{-cos sin ftp . ftpfi -j- sin sin fip.fip]. 
 When cos /3p = o, this reduces to 
 
 /3 e R = cos OR + sin OV(fiR). 
 The general result may be written 
 
 e R = SJ3R . /? + cos 0{V(3R){3 -f sin 0V/S& 
 Note that {V/3R)/3 is equal to V(Vj3R)/3 because S/l£/3 is 
 o, for it involves two coincident directions. 
 
 Example. — Let /? = li -f- ?%/ -f- «/£, where / 2 -j- w 2 -\-?f = i 
 and i? = ;rz +jjy'+ ^ ; then S/?i? = /*•-[- my -f- #£ 
 V(^)/5 = 
 
 and 
 
 Hence /?*/? = (/;r -j- my -f- «^)(/^ + mj J r #£) 
 
 -j- cos 
 
 mz — ny 
 
 nx — Iz 
 
 ly — mx 
 
 I 
 
 m n 
 
 i 
 
 j k 
 
 V/3R = 
 
 I m n 
 x y z 
 i j k 
 
 • 
 
 mz — 
 
 ny 
 
 
 I 
 
 
 I 
 
 i 
 
 
 I 
 
 m 
 
 n 
 
 x 
 
 y 
 
 z 
 
 i 
 
 j 
 
 k 
 
 nx — Iz 
 
 ly — mx 
 
 m 
 
 n 
 
 j 
 
 k 
 
 + sin0 
 
 To prove that ftp coincides with the axis of yff - */*^/"/?*/*. 
 Take the more general versor p . Let OP represent the axis 
 /?, AB the versor /3~^ 2 , BC the versor p . 
 Then (AB)(BC) = AC = DA, therefore 
 >d (AB)(BC)(AE) = (DA)(AE) = DE. Now 
 DE has the same angle as BC, but its axis 
 has been rotated round P by the angle b. 
 Hence if = tt/2, the axis of p-*/* p«/* /&/* 
 will coincide with fi b p* 
 
 The exponential expression for 
 
 * This theorem was discovered by Cayley. It indicates that quaternion 
 multiplication in the most general sense has its physical meaning in the compo- 
 sition of rotations. 
 
COMPOSITION OF ROTATIONS. 47 
 
 fl-Wp'/'/SV* is e -m v/ ' i +\^ /2 +m n/ \ w hich may be expanded 
 according to the exponential theorem, the successive powers 
 of the trinomial being formed according to the multinomial 
 theorem, the order of the factors being preserved. 
 
 Composition of Finite Rotations round Axes which Inter- 
 sect. — Let /3 and y denote the two axes in space round which 
 the successive rotations take place, and let f3 b denote the first 
 and y c the second. Let fi b X y c denote the single rotation 
 which is equivalent to the two given rotations applied in 
 succession ; the sign X is introduced to distinguish from the 
 product of versors. It has been shown in the preceding para- 
 graph that 
 
 ftp = p-*/*pr/*p b /* ; 
 
 and as the result is a line, the same principle applies to the 
 subsequent rotation. Hence 
 
 y c (/3 b p) = y- c /z(/3- b /*p"/* P"/*)y c /z 
 = {y-</*p- b /*)p"/\l3 b /*y c/2 ) , 
 because the factors in a product of versors can be associated in 
 any manner. Hence, reasoning backwards, 
 
 /3 b Xy c = (/5*V /2 ) 2 - 
 Let m denote the cosine of /3 b /' 2 y c / 2 , namely, 
 
 cos b/2 cos c/2 — sin b/2 sin c/2, 
 and n. v their directed sine, namely, 
 
 cos b/2 sin c/2.y-\-zos c/2 sin b/2 . /3— sin b/2 sin c/2 sin 0y . fiy\ 
 then ft b X y c = m~ — 1? -j- 2mn . v. 
 
 Observation. — The expression (fi^y'"/*) 2 is not, as might be 
 supposed, identical with fi b y c . The former reduces to the lat- 
 ter only when ft and y are the same or 
 opposite. In the figure /3* is represented 
 by PQ, y c by QR, ffy c by PR, /3*/»y</» by 
 ST, and (j3*/*y e /*)* by SU, which is twice p' 
 ST. The cosine of SU differs from the 
 cosine of PR by the term —(sin b/2 sin c/2 sin fiyf. It is 
 evident from the figure that their axes are also different. 
 
48 VECTOR ANALYSIS AND QUATERNIONS. 
 
 Corollary. — When b and c are infinitesimals, cos yS*Xx c=:I > 
 and Sin f3 b X y c — b . /> -\- c . y, which is the parallelogram rule 
 for the composition of infinitesimal rotations. 
 
 Prob. 54. Let /? = 3^7/45°, # = n/ z , and JS = 2/ - 3/ + 4^ J 
 calculate /3 i?. 
 
 Prob. 55. Let /? = ^07/90°, 0= 7t/ A , R = - /+ ay- 3* ; 
 calculate /? 7?. 
 
 Prob. 56. Prove by multiplying out that fi~ b /zp^^ b /a = {fi b p}*/ 3 ; 
 
 Prob. 57. Prove by means of the exponential theorem that 
 y- c fi b y c has an angle b, and that its axis is y ic fi. 
 
 Prob. 58. Prove that the cosine of (P b /*y e /*y differs from the 
 
 cosine of fi h y c by — (sin - sin — sin fiy\ . 
 
 Prob. 59. Compare the axes of (/3 b /*y c / 2 y and fi b y c . 
 
 Prob. 60. Find the value of fi b X y c when f3 =~o y/ 9 o° and 
 
 y = po //9 °- 
 
 Prob. 61. Find the single rotation -equivalent to i*/* Xj n/Z X k*/K 
 Prob, 62. Prove that successive rotations about radii to two 
 corners of a spherical triangle and through angles double of those 
 of the triangle are equivalent to a single rotation about the radius 
 to the third corner, and through an angle double of the external 
 angle of the triangle. 
 
INDEX. 
 
 Algebra of the plane, 7; of space, 7. 
 Algebraic imaginary, 22 (footnote). 
 Argand method, 24 (footnote). 
 Association of three vectors, 18. 
 
 Bibliography, 8 and preface. 
 Binomial theorem in spherical analysis, 
 44. 
 
 Cartesian analysis, 8. 
 
 Cayley, 46. 
 
 Central axis, 38. 
 
 Coaxial quaternions, 21; addition of, 
 23; product of, 23; quotient of, 24. 
 
 Complete product of two vectors, 14, 28; 
 of three vectors, 31. 
 
 Components of versor, 21; of quater- 
 nion, 22; of reciprocal of qua- 
 ternion, 22. 
 
 Composition of two simultaneous com- 
 ponents', 10; of any number of simul- 
 taneous components, 12; of suc- 
 cessive components, 13; of coaxial 
 quaternions, 23; of simultaneous 
 vectors in space, 25; of mass-vec- 
 tors, 35; of located vectors, 36; 
 of finite rotations, 45. 
 
 Coplanar vectors, 14. 
 
 Couple of forces, 36; condition for 
 couple vanishing, 39. 
 
 Cyclical and natural order, 20. 
 
 Determinant for vector product of 
 two vectors, 28; for second par- 
 tial product of three vectors, 32 
 and ^y, for scalar product of three 
 vectors, 33. 
 
 Distributive rule, 30. 
 Dynamo rule, 27. 
 
 Electric motor rule, 27. 
 
 Exponential theorem in spherical trigo- 
 nometry, 42; Hamilton's view, 44 
 (footnote). 
 
 Finite rotations, 45; versor expression 
 for, 46; exponential expression for, 
 46. 
 
 Formal laws, 12 (footnote). 
 
 Fundamental rules, 12 (footnote) and 14 
 (footnote) . 
 
 Hamilton's analysis of vector, 9; 
 idea of quaternion, 21 (footnote); view 
 of exponential theorem in spherical 
 analysis, 44 (footnote). 
 
 Hay ward, 24 (footnote). 
 
 Hospitalier system, 9. 
 
 Imaginary algebraic, 22 (footnote). 
 Kennelly's notation, 9. 
 Located vectors, 36. 
 
 Mass-vector, 35; composition of, 35. 
 
 Maxwell, 35. 
 
 Meaning of dot, 9; of Z , 9; of S, 15; 
 of V, 16; of vinculum over two axes 
 16; of 7, 25; of i~ as index, 39. 
 
 Notation for vector, 9. 
 Natural order, 20. 
 
 Opposite vector, 17. 
 
50 
 
 INDEX. 
 
 Parallelogram of simultaneous com- 
 ponents, 10. 
 
 Partial products, 14 and 28; of three 
 vectors, 32; resolution of second 
 partial product, 33. 
 
 Polygon of simultaneous components, 
 12. 
 
 Product, complete, 14 and 28; par- 
 tial, 14 and 28; of two coplanar 
 vectors, 14; scalar, 15 and 28; vec- 
 tor, 16 and 29; of three coplanar 
 vectors, 18; of coaxial quaternions, 
 24; of two vectors in space, 26; 
 of two sums of simultaneous vec- 
 tors, 30; of three vectors, 31; of 
 two quadrantal versors, 40; of two 
 spherical versors, 40; of three 
 spherical versors, 41. 
 
 "Quadrantal versor, 17. 
 
 Quaternion, definition of, 21; etymol- 
 ogy of, 21 (footnote); coaxial, 21; 
 reciprocal of, 22. 
 
 Quaternions, definition of, 7; relation 
 to vector analysis, 7. 
 
 Quotient of coaxial quaternions, 24. 
 
 Rayleigh, 23. 
 
 Reciprocal of a vector, 17; of a qua- 
 ternion, 22. 
 
 Relation of right-handed screw, 27. 
 
 Resolution of a vector, n; of second 
 partial product of three vectors, 33. 
 
 Rotations, finite, 45. 
 
 Rules for vectors, 14 and 26; for 
 versors, 39; for expansion of product 
 of two quadrantal versors, 40; for 
 dynamo, 27. 
 
 Scalar product, 15; of two coplanar 
 vectors, 15; geometrical meaning, 15. 
 Screw, relation of right-handed, 27. 
 
 Simultaneous components, 9; com- 
 position of, 10; resolution of, n; 
 parallelogram of, 10; polygon of, 12; 
 product of two sums of, 30. 
 
 Space-analysis, 7; advantage over 
 Cartesian analysis, 8; foundation of, 
 12 (footnote). 
 
 Spherical trigonometry, 39; funda- 
 mental theorem of, 40; exponential 
 theorem, 42; binomial theorem, 44. 
 
 Spherical versor, 40; product of two, 
 40; quotient of two, 41; product 
 of three, 41. 
 
 Square of a vector, 14; of two simul- 
 taneous components, 19; of two 
 successive components, 19; of three 
 successive components, 19. 
 
 Stringham, 24 (footnote). 
 
 Successive components, 9; composition 
 of, 13. 
 
 Tait's analysis of vector, 9. 
 Tensor, definition of, 9. 
 Torque, 37. 
 
 Total vector product of three vectors, 
 34- 
 
 Unit-vector, 9. 
 
 Vector, definition of, 8; dimensions of, 
 9; notation for, 9; unit-vector, 9; 
 simultaneous, 9; successive, 9; co- 
 planar, 14; reciprocal of, 17; oppo- 
 site of, 17; in space, 25. 
 
 Vector analysis, definition of, 7; rela- 
 tion to Quaternions, 7. 
 
 Vector product, 16; of two vectors, 16; 
 of three vectors, 34. 
 
 Versor, components of, 21 and 40; 
 rules for, 39; product of two quad- 
 rantal, 40; product of two general 
 spherical, 40; of three general 
 spherical, 41. 
 
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 Goodrich's Economic Disposal of Towns' Refuse 8vo, 3 50 
 
 Gore's Elements of Geodesy 8vo, 2 50 
 
 Hayford's Text-book of Geodetic Astronomy 8vo, 3 00 
 
 Hering's Ready Reference Tables (Conversion Factors) i6mo, morocco, 2 50 
 
 Howe's Retaining Walls for Earth nmo, 1 25 
 
 Johnson's (J. B.) Theory and Practice of Surveying Small 8vo, 4 00 
 
 Johnson's (L. J.) Static's by Algebraic and Graphic Methods 8vo, 2 00 
 
 Laplace's Philosophical Essay on Probabilities. (Truscoit and Emory.) . nmo, 2 00 
 
 Mahan's Treatise on Civil Engineering. (1873.) (Wood.). , . . 8vo, 5 00 
 
 * Descriptive Geometry 8vo, 1 50 
 
 Merriman's Elements of Precise Surveying and Geodesy ^vo, 2 50 
 
 Merriman and Brooks's Handbook for Surveyors i6mo, more- : - 00 
 
 Nugent's Plane Surveying 8vo, 3 ~,c 
 
 Ogden's Sewer Design nmo, 2 00 
 
 Patton's Treatise on Civil Engineering 8vo half leather, 7 50 
 
 Reed's Topographical Drawing and Sketching 4to, 5 00 
 
 Rideal's Sewage and the Bacterial Purification of Sewage 8vo, 3 50 
 
 Siebert and Biggin's Modern Stone-cutting and Masonry 8vo, 1 50 
 
 Smith's Manual of Topographical Drawing. (McMillan.) 8vo, 2 50 
 
 Sondericker's Graphic Statics, with Applications to Trusses, Beams, and Arches. 
 
 8vo, 2 00 
 
 Taylor and Thompson's Treatise on Concrete, Plain and Reinforced 8vo, 5 00 
 
 * Trautwine's Civil Engineer's Pocket-book i6mo, morocco, 5 00 
 
 Wait's Engineering and Architectural Jurisprudence 8vo, 6 00 
 
 Sheep, 6 50 
 Law of Operations Preliminary to Construction in Engineering and Archi- 
 tecture 8vo, s 00 
 
 Sheep, 5 50 
 
 Law of Contracts 8vo, 3 00 
 
 Warren's Stereotomy — Problems in Stone-cutting 8vo, 2 50 
 
 Webb's Problems in the Use and Adjustment of Engineering Instruments. 
 
 i6mo, morocco, 1 25 
 
 Wilson's Topographic Surveying 8vo, 3 50 
 
 BRIDGES AND ROOFS. 
 
 Boiler's Practical Treatise on the Construction of Iron Highway Bridges. .8vo, 2 00 
 
 * Thames River Bridge 4to, paper, 5 00 
 
 Burr's Course on the Stresses in Bridges and Roof Trusses, Arched Ribs, and 
 
 Suspension Bridges 8vo, 3 50 
 
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 Burr and Falk's Influence Lines for Bridge and Roof Computations. . . .8vo, 
 
 Design and Construction of Metallic Bridges 8vo, 
 
 Du Bois's Mechanics of Engineering. Vol. II Small 410, 
 
 Foster's Treatise on Wooden Trestle Bridges 4to, 
 
 Fowler's Ordinary Foundations 8vo, 
 
 Greene's Roof Trusses 8vo, 
 
 Bridge Trusses 8vo, 
 
 Arches in Wood, Iron, and Stone 8vo, 
 
 Howe's Treatise on Arches 8vo, 
 
 Design of Simple Roof-trusses in Wood and Steel 8vo, 
 
 Johnson, Bryan, and Turneaure's Theory and Practice in the Designing of 
 
 Modern Framed Structures Small 4to, 
 
 Merriman and Jacoby's Text-book on Roofs and Bridges: 
 
 Part I. Stresses in Simple Trusses 8vo, 
 
 Part II. Graphic Statics 8vo, 
 
 Part III. Bridge Design 8vo, 
 
 Part IV. Higher Structures 8vo, 
 
 Morison's Memphis Bridge 4to, 
 
 Waddell's De Pontibus, a Pocket-book for Bridge Engineers. . i6mo, morocco, 
 
 Specifications for Steel Bridges i2mo, 
 
 Wright's Designing of Draw-spans. Two parts in one volume 8vo, 
 
 HYDRAULICS. 
 
 Bazin's Experiments upon the Contraction of the Liquid Vein Issuing from 
 
 an Orifice. (Trautwine.) 8vo, 2 00 
 
 Bovey's Treatise on Hydraulics 8vo, 5 oo 
 
 Church's Mechanics of Engineering . .8vo, 6 00 
 
 Diagrams of Mean Velocity of Water in Open Channels paper, 1 50 
 
 Hydraulic Motors 8vo, 2 00 
 
 Coffin's Graphical Solution of Hydraulic Problems i6mo, morocco, 2 50 1 
 
 Flather's Dynamometers, and the Measurement of Power i2mo, 3 00 
 
 Folwell's Water-supply Engineering 8vo, 4 00 
 
 Frizell's Water-power 8vo, 5 00 
 
 Fuertes's Water and Public Health i2mo, 1 50 
 
 Water-filtration Works i2mo, 2 50 
 
 Ganguillet and Kutter's General Formula for the Uniform Flow of Water in 
 
 Rivers and Other Channels. (Hering and Trautwine.) 8vo, 4 00 
 
 Hazen's Filtration of Public Water-supply 8vo, 3 00 
 
 Hazlehurst's Towers and Tanks for Water-works 8vo, 2 50 
 
 Herschel's 115 Experiments on the Carrying Capacity of Large, Riveted, Metal 
 
 Conduits 8vo, 2 00 
 
 Mason's Water-supply. (Considered Principally from a Sanitary Standpoint.) 
 
 8vo, 4 00 
 
 Merriman's Treatise on Hydraulics 8vo, 5 00 
 
 * Michie's Elements of Analytical Mechanics ; 8vo, 4 00 
 
 Schuyler's Reservoirs for Irrigation, Water-power, and Domestic Water- 
 supply Large 8vo, 5 00 
 
 ** Thomas and Watt's Improvement of Rivers. (Post., 44c. additional. ).4to, 6 00 
 
 Turneaure and Russell's Public Water-supplies 8vo, 5 00 
 
 Wegmann's Design and Construction of Dams 4to, 5 00 
 
 Water-supply of the City of New York from 1658 to 1895 4to, 10 00 
 
 Williams and Hazen's Hydraulic Tables 8vo, 1 50 
 
 Wilson's Irrigation Engineering Small 8vo, 4 00 
 
 Wolff's Windmill as a Prime Mover 8vo, 3 00 
 
 Wood's Turbines 8vo, 2 50 
 
 Elements of Analytical Mechanics 8vo, 3 00 
 
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 MATERIALS OF ENGINEERING. 
 
 Baker's Treatise on Masonry Construction 8vo, 
 
 Roads and Pavements 8vo, 
 
 Black's United States Public Works Oblong 4to, 
 
 * Bovey's Strength of Materials and Theory of Structures 8vo, 
 
 Burr's Elasticity and Resistance of the Materials of Engineering 8vo, 
 
 Byrne's Highway Construction 8vo, 
 
 Inspection of the Materials and Workmanship Employed in Construction. 
 
 i6mo, 
 
 Church's Mechanics of Engineering 8vo, 
 
 Du Bois's Mechanics of Engineering. Vol. I Small 4to, 
 
 *Eckel's Cements, Limes, and Plasters 8vo, 
 
 Johnson's Materials of Construction Large 8vo, 
 
 Fowler's Ordinary Foundations 8vo, 
 
 * Greene's Structural Mechanics 8vo, 
 
 Keep's Cast Iron 8vo, 
 
 Lanza's Applied Mechanics 8vo, 
 
 Marten's Handbook on Testing Materials. (Henning.) i vols 8vo, 
 
 Maurer's Technical Mechanics 8vo, 
 
 Merrill's Stones for Building and Decoration 8vo, 
 
 Merriman's Mechanics of Materials 8vo, 
 
 Strength of Materials i2mo, 
 
 Metcalf's Steel. A Manual for Steel-users i2mo, 
 
 Patron's Practical Treatise on Foundations 8vo, 
 
 Richardson's Modern Asphalt Pavements 8vo, 
 
 Richey's Handbook for Superintendents of Construction i6mo, mor., 
 
 Rockwell's Roads and Pavements in France i2mo, i 25 
 
 Sabin's Industrial and Artistic Technology of Paints and Varnish 8vo, 3 00 
 
 Smith's Materials of Machines i2mo, 1 00 
 
 Snow's Principal Species of Wood 8vo, 3 50 
 
 Spalding's Hydraulic Cement i2mo, 2 00 
 
 Text-book on Roads and Pavements nmo, 2 00 
 
 Taylor and Thompson's Treatise on Concrete, Plain and Reinforced 8vo, 5 00 
 
 Thurston's Materials of Engineering. 3 Parts 8vo, 8 00 
 
 Part I. Non-metallic Materials of Engineering and Metallurgy 8vo, 2 00 
 
 Part II. Iron and Steel 8vo, 3 50 
 
 Part IH. A Treatise on Brasses, Bronzes, and Other Alloys and their 
 
 Constituents 8vo, 2 50 
 
 Thurston's Text-book of the Materials of Construction 8vo, 5 00 
 
 Tillson's Street Pavements and Paving Materials 8vo, 4 00 
 
 Waddell's De Pontibus. (A Pocket-book for Bridge Engineers.). .i6mo, mor., 2 00 
 
 Specifications for Steel Bridges i2mo, 1 25 
 
 Wood's (De V.) Treatise on the Resistance of Materials, and an Appendix on 
 
 the Preservation of Timber 8vo, 2 00 
 
 Wood's (De V.) Elements of Analytical Mechanics 8vo, 3 00 
 
 Wood's (M. P.) Rustless Coatings: Corrosion and Electrolysis of Iron and 
 
 Steel 8vo, 4 00 
 
 RAILWAY ENGINEERING. 
 
 Andrew's Handbook for Street Railway Engineers 3x5 inches, morocco, 1 25 
 
 Berg's Buildings and Structures of American Railroads 4to, 5 00 
 
 Brook's Handbook of Street Railroad Location i6mo, morocco, 1 50 
 
 Butt's Civil Engineer's Field-book i6mo, morocco, 2 50 
 
 Crandall's Transition Curve i6mo, morocco, 1 50 
 
 Railway and Other Earthwork Tables 8vo, 1 50 
 
 Dawson's "Engineering" and Electric Traction Pocket-book. . i6mo, morocco, 5 00 
 
Dredge's History of the Pennsylvania Railroad: (1879) . .Paper, 5 00 
 
 * Drinker's Tunnelling, Explosive Compounds, and Rock Drills. 4to, half mor., 25 00 
 
 Fisher's Table of Cubic Yards Cardboard, 25 
 
 Godwin's Railroad Engineers' Field-book and Explorers' Guide. . . i6mo, mor., 2 50 
 
 Howard's Transition Curve Field-book i6mo, morocco, 1 50 
 
 Hudson's Tables for Calculating the Cubic Contents of Excavations and Em- 
 bankments 8vo, 1 00 
 
 Molitor and Beard's Manual for Resident Engineers i6mo, 1 00 
 
 Nagle's Field Manual for Railroad Engineers i6mo, morocco, 3 00 
 
 Philbrick's Field Manual for Engineers i6mo, morocco, 3 00 
 
 Searles's Field Engineering i6mo, morocco, 3 00 
 
 Railroad Spiral i6mo, morocco, 1 50 
 
 Taylor's Prismoidal Formula? and Earthwork 8vo, 1 50 
 
 * Trautwine's Method of Calculating the Cube Contents of Excavations and 
 
 Embankments by the Aid of Diagrams 8vo, 2 00 
 
 The Field Practice of Laying Out Circular Curves for Railroads. 
 
 i2mo, morocco, 2 50 
 
 Cross-section Sheet Paper, 25 
 
 Webb's Railroad Construction i6mo, morocco, 5 00 
 
 Wellington's Economic Theory of the Location of Railways Small 8vo, 5 00 
 
 DRAWING. 
 
 Barr's Kinematics of Machinery 8vo, 2 50 
 
 * Bartlett's Mechanical Drawing 8vo, 3 00 
 
 * " " " Abridged Ed 8vo, 1 50 
 
 Coolidge's Manual of Drawing 8vo, paper 1 00 
 
 Coolidge and Freeman's Elements of General Drafting for Mechanical Engi- 
 neers Oblong 4to, 2 50 
 
 Durley's Kinematics of Machines 8vo, 4 00 
 
 Emch's Introduction to Projective Geometry and its Applications 8vo, 2 50 
 
 Hill's Text-book on Shades and Shadows, and Perspective 8vo, 2 00 
 
 Jamison's Elements of Mechanical Drawing 8vo, 2 50 
 
 Advanced Mechanical Drawing 8vo, 2 00 
 
 Jones's Machine Design: 
 
 Part I. Kinematics of Machinery 8vo, 1 50 
 
 Part n. Form, Strength, and Proportions of Parts 8vo, 
 
 MacCord's Elements of Descriptive Geometry 8vo, 
 
 Kinematics; or, Practical Mechanism 8vo, 
 
 Mechanical Drawing 4to, 
 
 Velocity Diagrams 8vo, 
 
 MacLeod's Descriptive Geometry Small 8vo, 
 
 * Mahan's Descriptive Geometry and Stone-cutting 8vo, 
 
 Industrial Drawing. (Thompson.) 8vo, 
 
 Moyer's Descriptive Geometry gvo, 2 00 
 
 Reed's Topographical Drawing and Sketching 4 to, 5 00 
 
 Reid's Course in Mechanical Drawing 8vo, 2 00 
 
 Text-book of Mechanical Drawing and Elementary Machine Design. 8vo, 3 00 
 
 Robinson's Principles of Mechanism 8vo, 3 00 
 
 Schwamb and Merrill's Elements of Mechanism 8vo, 3 co 
 
 Smith's (R. S.) Manual of Topographical Drawing. (McMillan.) 8vo, 2 50 
 
 Smith (A. W.) and Marx's Machine Design 8vo, 3 00 
 
 Warren's Elements of Plane and Solid Free-hand Geometrical Drawing. i2mo, 1 00 
 
 Drafting Instruments and Operations i2mo, 1 25 
 
 Manual of Elementary Projection Drawing i2mo, 
 
 Manual of Elementary Problems in the Linear Perspective of Form and 
 
 Shadow i2mo, 1 00 
 
 Plane Problems in Elementary Geometry i2mo, 1 23 
 
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 Warren's Primary Geometry i2mo, 75 
 
 Elements of Descriptive Geometry, Shadows, and Perspective 8vo, 3 50- 
 
 General Problems of Shades and Shadows 8vo, 3 o& 
 
 Elements of Machine Construction and Drawing 8vo, 7 50 
 
 Problems, Theorems, and Examples in Descriptive Geometry 8vo, 2 50 
 
 Weisbach's Kinematics and Power of Transmission. (Hermann and 
 
 Klein.) 8vo, 5 o , 
 
 Whelpley's Practical Instruction in the Art of Letter Engraving i2mo, 2 00 
 
 Wilson's (H. M.) Topographic Surveying 8vo, 3 50 
 
 Wilson's (V. T.) Free-hand Perspective 8vo, 2 50 
 
 Wilson's (V. T.) Free-hand Lettering 8vo, 1 00 
 
 Woolf's Elementary Course in Descriptive Geometry Large 8vo, 3 00 
 
 ELECTRICITY AND PHYSICS. 
 
 Anthony and Brackett's Text-book of Physics. (Magie.) Small 8vo, 3 00 
 
 Anthony's Lecture-notes on the Theory of Electrical Measurements. . . . i2mo, 
 Benjamin's History of Electricity 8vo, 
 
 Voltaic Cell 8vo, 
 
 Classen's Quantitative Chemical Analysis by Electrolysis. (Boltwood.).8vo, 
 
 Crehore and Squier's Polarizing Photo-chronograph 8vo, 
 
 Dawson's "Engineering" and Electric Traction Pocket-book. i6mo, morocco, 
 Dolezalek's Theory of the Lead Accumulator (Storage Battery). (Von 
 
 Ende.) i2mo, 
 
 Duhem's Thermodynamics and Chemistry. (Burgess.) 8vo, 
 
 Flather's Dynamometers, and the Measurement of Power i2mo, 
 
 Gilbert's De Magnete. (Mottelay.) 8vo, 2 50 
 
 Hanchett's Alternating Currents Explained i2mo, 1 00 
 
 Hering's Ready Reference Tables (Conversion Factors) i6mo, morocco, 2 50 
 
 Holman's Precision of Measurements 8vo, 2 00 
 
 Telescopic Mirror-scale Method, Adjustments, and Tests. .. .Large 8vo, 75 
 
 Kinzbrunner's Testing of Continuous-current Machines 8vo, 2 00 
 
 Landauer's Spectrum Analysis. (Tingle.) 8vo, 
 
 Le Chatelier's High-temperature Measurements. (Boudouard — Burgess.) i2mo, 
 Lob's Electrochemistry of Organic Compounds. (Lorenz.) 8vo, 
 
 * Lyons's Treatise on Electromagnetic Phenomena. Vols. I. and II. 8vo, each, 
 
 * Michie's Elements of Wave Motion Relating to Sound and Light 8vo, 
 
 Niaudet's Elementary Treatise on Electric Batteries. (Fishback.) i2mo, 
 
 * Rosenberg's Electrical Engineering. (Haldane Gee — Kinzbrunner.). . .8vo, 
 
 Ryan, Norris, and Hoxie's Electrical Machinery. Vol. 1 8vo, 
 
 Thurston's Stationary Steam-engines 8vo, 
 
 * Tillman's Elementary Lessons in Heat 8vo, 
 
 Tory and Pitcher's Manual of Laboratory Physics Small 8vo, 2 00 
 
 Ulke's Modern Electrolytic Copper Refining 8vo, 3 00 
 
 LAW. 
 
 * Davis's Elements of Law 8vo, 2 50 
 
 * Treatise on the Military Law of United States 8vo, 7 00 
 
 * Sheep, 7 5<> 
 
 Manual for Courts-martial i6mo, morocco, 1 50 
 
 Wait's Engineering and Architectural Jurisprudence 8vo, 6 00 
 
 Sheep, 6 50 
 Law of Operations Preliminary to Construction in Engineering and Archi- 
 tecture 8vo 5 00 
 
 Sheep, 5 50 
 
 Law of Contracts 8vo, 3 00 
 
 Winthrop's Abridgment of Military Law i2mo, 2 So 
 
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MANUFACTURES. 
 
 Bernadou's Smokeless Powder — Nitro-cellulose and Theory of the Cellulose 
 
 Molecule nmo, 2 50 
 
 Bolland's Iron Founder nmo, 2 50 
 
 "The Iron Founder," Supplement i2mo, 2 50 
 
 Encyclopedia of Founding and Dictionary of Foundry Terms Used in the 
 
 Practice of Moulding i2mo, 3 00 
 
 Eissler's Modern High Explosives 8vo, 4 00 
 
 Effront's Enzymes and their Applications. (Prescott.) 8vo, 3 00 
 
 Fitzgerald's Boston Machinist i2mo, 1 00 
 
 Ford's Boiler Making for Boiler Makers i8mo, 1 00 
 
 Hopkin's Oil-chemists' Handbook 8vo, 3 00 
 
 Keep's Cast Iron 8vo, 2 50 
 
 Leach's The Inspection and Analysis of Food with Special Reference to State 
 
 Control Large 8vo, 7 50 
 
 Matthews's The Textile Fibres. 8vo, 3 50 
 
 Metcalf's Steel. A Manual for Steel-users i2mo, 2 00 
 
 Metcalfe's Cost of Manufactures — And the Administration of Workshops. 8vo, 5 00 
 
 Meyer's Modern Locomotive Construction 4to, 10 00 
 
 Morse's Calculations used in Cane-sugar Factories i6mo, morocco, 1 50 
 
 * Reisig's Guide to Piece-dyeing 8vo, 25 00 
 
 Sabin's Industrial and Artistic Technology of Paints and Varnish 8vo, 3 00 
 
 Smith's Press-working of Metals 8vo, 3 00 
 
 Spalding's Hydraulic Cement i2mo, 2 00 
 
 Spencer's Handbook for Chemists of Beet-sugar Houses i6mo, morocco, 3 00 
 
 Handbook for Cane Sugar Manufacturers i6mo, morocco, 3 00 
 
 Taylor and Thompson's Treatise on Concrete, Plain and Reinforced 8vo, 5 00 
 
 Thurston's Manual of Steam-boilers, their Designs, Construction and Opera- 
 tion 8vo, 5 00 
 
 * Walke's Lectures on Explosives 8vo, 4 00 
 
 Ware's Beet-sugar Manufacture and Refining Small 8vo, 4 00 
 
 West's American Foundry Practice i2mo, 2 50 
 
 Moulder's Text-book i2mo, 2 50 
 
 Wolff's Windmill as a Prime Mover 8vo, 3 00 
 
 Wood's Rustless Coatings : Corrosion and Electrolysis of Iron and Steel. .8vo, 4 00 
 
 MATHEMATICS. 
 
 Baker's Elliptic Functions 8vo, I 50 
 
 * Bass's Elements of Differential Calculus . nmo, 4 00 
 
 Briggs's Elements of Plane Analytic Geometry nmo, 1 00 
 
 Compton's Manual of Logarithmic Computations nmo, 1 50 
 
 Davis's Introduction to the Logic of Algebra 8vo, 1 50 
 
 * Dickson's College Algebra Large i2mo, 1 50 
 
 * Introduction to the Theory of Algebraic Equations Large nmo, 1 25 
 
 Emch's Introduction to Projective Geometry and its Applications 8vo, 2 50 
 
 Halsted's Elements of Geometry 8vo, 1 75 
 
 Elementary Synthetic Geometry 8vo, 1 50 
 
 Rational Geometry nmo, 1 7S 
 
 * Johnson's (J. B.) Three-place Logarithmic Tables: Vest-pocket size. paper, 15 
 
 100 copies for 5 00 
 
 * Mounted on heavy cardboard, 8X10 inches, 25 
 
 10 copies for 2 00 
 
 Johnson's (W. W.) Elementary Treatise on Differential Calculus . .Small 8vo, 3 00 
 
 Johnson's (W. W.) Elementary Treatise on the Integral Calculus. Small 8vo, 1 50 
 
 11 
 
Johnson's (W. W.) Curve Tracing in Cartesian Co-ordinates i2mo, i oo 
 
 Johnson's (W. W.) Treatise on Ordinary and Partial Differential Equations. 
 
 Small 8vo, 3 50 
 Johnson's (W. W.) Theory of Errors and the Method of Least Squares. 12 mo, 1 50 
 
 * Johnson's (W. W.) Theoretical Mechanics i2mo, 3 00 
 
 Laplace's Philosophical Essay on Probabilities. (Truscott and Emory.) . i2mo, 2 00 
 
 * Ludlow and Bass. Elements of Trigonometry and Logarithmic and Other 
 
 Tables 8vo, 3 00 
 
 Trigonometry and Tables published separately Each, 2 00 
 
 * Ludlow's Logarithmic and Trigonometric Tables 8vo, 1 00 
 
 Mathematical Monographs. Edited by Mansfield Merriman and Robert 
 
 S. Woodward Octavo, each 1 00 
 
 No. 1. History of Modern Mathematics, by David Eugene Smith. 
 No. 2. Synthetic Projective Geometry, by George Bruce Halsted. 
 No. 3. Determinants, by Laenas Gifford Weld. No. 4. Hyper- 
 bolic Functions, by James McMahon. No. 5. Harmonic Func- 
 tions, by William E. Byerly. No. 6. Grassmann's Space Analysis, 
 by Edward W. Hyde. No. 7. Probability and Theory of Errors, 
 by Robert S. Woodward. No. 8. Vector Analysis and Quaternions, 
 by Alexander Macfarlane. No. 9. Differential Equations, by 
 William Woolsey Johnson. No. 10. The Solution of Equations, 
 by] Mansfield Merriman. No. 1 1. Functions of a Complex Variable, 
 by Thomas S. Fiske. 
 
 Maurer's Technical Mechanics 8vo, 4 00 
 
 Merriman and Woodward's Higher Mathematics 8vo, 5 00 
 
 Merriman's Method of Least Squares 8vo, 2 00 
 
 Rice and Johnson's Elementary Treatise on the Differential Calculus. . Sm. 8vo, 3 00 
 
 Differential and Integral Calculus. 2 vols, in one Small 8vo, 2 50 
 
 Wood's Elements of Co-ordinate Geometry 8vo, 2 00 
 
 Trigonometry: Analytical, Plane, and Spherical i2mo, 1 00 
 
 MECHANICAL ENGINEERING. 
 MATERIALS OF ENGINEERING, STEAM-ENGINES AND BOILERS. 
 
 Bacon's Forge Practice i2mo, 1 50 
 
 Baldwin's Steam Heating for Buildings i2mo, 2 50 
 
 Barr's Kinematics of Machinery 8vo, 2 50 
 
 * Bartlett's Mechanical Drawing 8vo, 3 00 
 
 * " " " Abridged Ed 8vo, 1 50 
 
 Benjamin's Wrinkles and Recipes i2mo, 2 00 
 
 Carpenter's Experimental Engineering 8vo, 6 00 
 
 Heating and Ventilating Buildings 8vo, 4 00 
 
 Cary's Smoke Suppression in Plants using Bituminous Coal. (In Prepara- 
 tion.) 
 
 Clerk's Gas and Oil Engine Small 8vo, 4 00 
 
 Coolidge's Manual of Drawing 8vo, paper, 1 00 
 
 Coolidge and Freeman's Elements of General Drafting for Mechanical En- 
 gineers Oblong 4to, 2 50 
 
 Cromwell's Treatise on Toothed Gearing i2mo, 1 50 
 
 Treatise on Belts and Pulleys i2mo, 1 50 
 
 Durley's Kinematics of Machines 8vo, 4 00 
 
 Flather's Dynamometers and the Measurement of Power i2mo, 3 00 
 
 Rope Driving i2mo, 2 00 
 
 Gill's Gas and Fuel Analysis for Engineers i2mo, 1 25 
 
 Hall's Car Lubrication i2mo, 1 00 
 
 Hering's Ready Reference Tables (Conversion Factors) i6mo, morocco, 2 50 
 
 12 
 
I 
 
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 Hutton's The Gas Engine 8vo, 
 
 Jamison's Mechanical Drawing 8vo, 
 
 Jones's Machine Design: 
 
 Part I. Kinematics of Machinery 8vo, 
 
 Part H. Form, Strength, and Proportions of Parts 8vo, 
 
 Kent's Mechanical Engineers' Pocket-book i6mo, morocco, 
 
 Kerr's Power and Power Transmission 8vo, 
 
 Leonard's Machine Shop, Tools, and Methods 8vo, 
 
 * Lorenz's Modern Refrigerating Machinery. (Pope, Haven, and Dean.) . . 8vo, 
 MacCord's Kinematics; or, Practical Mechanism 8vo, 
 
 Mechanical Drawing 4to, 
 
 Velocity Diagrams ; 8vo, 
 
 MacFarland's Standard Reduction Factors for Gases 8vo, 
 
 Mahan's Industrial Drawing. (Thompson.) 8vo, 
 
 Poole's Calorific Power of Fuels 8vo, 
 
 Reid's Course in Mechanical Drawing 8vo, 2 00 
 
 Text-book of Mechanical Drawing and Elementary Machine Design. 8vo, 3 00 
 
 Richard's Compressed Air i2mo, 1 50 
 
 Robinson's Principles of Mechanism 8vo, 3 00 
 
 Schwamb and Merrill's Elements of Mechanism 8vo, 3 00 
 
 Smith's (O.) Press-working of Metals 8vo, 3 00 
 
 Smith (A. W.) and Marx's Machine Design 8vo, 3 00 
 
 Thurston's Treatise on Friction and Lost Work in Machinery and Mill 
 
 Work 8vo, 3 00 
 
 Animal as a Machine and Prime Motor, and the Laws of Energetics. i2mo, 1 00 
 
 Warren's Elements of Machine Construction and Drawing 8vo, 7 so 
 
 Weisbach's Kinematics and the Power of Transmission. (Herrmann — 
 
 Klein.) 8vo, 5 00 
 
 Machinery of Transmission and Governors. (Herrmann — Klein.). .8vo, 5 00 
 
 Wolff's Windmill as a Prime Mover 8vo, 3 00 
 
 Wood's Turbines 8vo, 2 50 
 
 MATERIALS OP ENGINEERING. 
 
 * Bovey's Strength of Materials and Theory of Structures 8vo, 7 50 
 
 Burr's Elasticity and Resistance of the Materials of Engineering. 6th Edition. 
 
 Reset 8vo, 7 50 
 
 Church's Mechanics of Engineering 8vo, 6 00 
 
 * Greene's Structural Mechanics 8vo, 2 50 
 
 Johnson's Materials of Construction 8vo, 6 00 
 
 Keep's Cast Iron 8vo, 2 50 
 
 Lanza's Applied Mechanics 8vo, 7 50 
 
 Martens's Handbook on Testing Materials. (Henning.) 8vo, 7 50 
 
 Maurer's Technical Mechanics 8vo, 4 00 
 
 Merriman's Mechanics of Materials 8vo, 5 00 
 
 Strength of Materials i2mo, 1 00 
 
 Metcalf's Steel. A manual for Steel-users i2mo, 2 00 
 
 Sabin's Industrial and Artistic Technology of Paints and Varnish 8vo, 3 00 
 
 Smith's Materials of Machines nmo, 1 00 
 
 Thurston's Materials of Engineering 3 vols., 8vo, 8 00 
 
 Part II. Iron and Steel 8vo, 3 50 
 
 Part III. A Treatise on Brasses, Bronzes, and Other Alloys and their 
 
 Constituents 8vo, 2 50 
 
 Text-book of the Materials of Construction 8vo, 5 00 
 
 Wood's (De V.) Treatise on the Resistance of Materials and an Appendix on 
 
 the Preservation of Timber 8vo, 2 00 
 
 13 
 
Wood's (De V.) Elements of Analytical Mechanics 8vo, 3 00 
 
 Wood's (M. P.) Rustless Coatings: Corrosion and Electrolysis of Iron and 
 
 Steel 8vo, 4 00 
 
 STEAM-ENGINES AND BOILERS. 
 
 Berry's Temperature-entropy Diagram nmo, 1 25 
 
 Carnot's Reflections on the Motive Power of Heat. (Thurston.) nmo, I 5a 
 
 Dawson's "Engineering" and Electric Traction Pocket-book. . . i6mo,mor., 5 00 
 
 Ford's Boiler Making for Boiler Makers i8mo, 1 00 
 
 Goss's Locomotive Sparks 8vo, 2 00 
 
 Hemenway's Indicator Practice and Steam-engine Economy nmo, 2 00 
 
 Hutton's Mechanical Engineering of Power Plants 8vo, 5 00 
 
 Heat and Heat-engines 8vo, 5 00 
 
 Kent's Steam boiler Economy 8vo, 4 00 
 
 Kneass's Practice and Theory of the Injector 8vo, 1 5a 
 
 MacCord's Slide-valves 8vo, 2 oa 
 
 Meyer's Modern Locomotive Construction 4to, 10 00 
 
 Peabody's Manual of the Steam-engine Indicator i2mo. 1 50 
 
 Tables of the Properties of Saturated Steam and Other Vapors 8vo, 1 00 
 
 Thermodynamics of the Steam-engine and Other Heat-engines 8vo, 5 00 
 
 Valve-gears for Steam-engines 8vo, 2 50 
 
 Peabody and Miller's Steam-boilers 8vo, 4 00 
 
 Pray's Twenty Years with the Indicator Large 8vo, 2 50 
 
 Pupin's Thermodynamics of Reversible Cycles in Gases and Saturated Vapors. 
 
 (Osterberg.) i2mo, 1 25 
 
 Reagan's Locomotives: Simple Compound, and Electric i2mo, 2 50 
 
 Rontgen's Principles of Thermodynamics. (Du Bois.) 8vo, 5 00 
 
 Sinclair's Locomotive Engine Running and Management nmo, 2 00- 
 
 Smart's Handbook of Engineering Laboratory Practice nmo, 2 50 
 
 Snow's Steam-boiler Practice 8vo, 3 00 
 
 Spangler's Valve-gears 8vo, 2 50 
 
 Notes on Thermodynamics nmo, 1 00 
 
 Spangler, Greene, and Marshall's Elements of Steam-engineering 8vo, 3 00 
 
 Thurston's Handy Tables 8vo, 1 50 
 
 Manual of the Steam-engine 2 vols., 8vo, 10 00 
 
 Part I. History, Structure, and Theory 8vo, 6 00 
 
 Part II. Design, Construction, and Operation 8vo, 6 00 
 
 Handbook of Engine and Boiler Trials, and the Use of the Indicator and 
 
 the Prony Brake 8vo, 5 00 
 
 Stationary Steam-engines 8vo, 2 50 
 
 Steam-boiler Explosions in Theory and in Practice nmo, 1 50 
 
 Manual of Steam-boilers, their Designs, Construction, and Operation 8vo, 5 00 
 
 Weisbach's Heat, Steam, and Steam-engines. (Du Bois.) 8vo, 5 00 
 
 Whitham's Steam-engine Design 8vo, 5 00 
 
 Wilson's Treatise on Steam-boilers. (Flather.) i6mo, 2 50 
 
 Wood's Thermodynamics, Heat Motors, and Refrigerating Machines. . .8vo, 4 00 
 
 MECHANICS AND MACHINERY. 
 
 Barr's Kinematics of Machinery 8vo, 2 50 
 
 * Bovey's Strength of Materials and Theory of Structures 8vo, 7 50 
 
 Chase's The Art of Pattern-making nmo, 2 50 
 
 Church's Mechanics of Engineering 8vo, 6 00 
 
 Notes and Examples in Mechanics 8vo, 2 00 
 
 Compton's First Lessons in Metal-working nmo, 1 50 
 
 Compton and De Groodt's The Speed Lathe 12 mo, 1 50. 
 
 14 
 
Cromwell's Treatise on Toothed Gearing i2mo, I 50 
 
 Treatise on Belts and Pulleys i2mo, 1 50 
 
 Dana's Text-book of Elementary Mechanics for Colleges and Schools, .nmo, 1 50 
 
 Dingey's Machinery Pattern Making i2mo, 2 00 
 
 Dredge's Record of the Transportation Exhibits Building of the "World's 
 
 Columbian Exposition of 1893 4to half morocco, 5 00 
 
 Du Bois's Elementary Principles of Mechanics : 
 
 Vol. I. Kinematics 8vo, 3 50 
 
 Vol. n. Statics 8vo, 4 00 
 
 Mechanics of Engineering. Vol. I Small 4to, 7 50 
 
 Vol. H Small 4to, 10 00 
 
 Durley's Kinematics of Machines 8vo, 4 00 
 
 Fitzgerald's Boston Machinist i6mo, 1 00 
 
 Flather's Dynamometers, and the Measurement of Power i2mo, 3 00 
 
 Rope Driving i2mo, 2 00 
 
 Goss's Locomotive Sparks 8vo, 2 00 
 
 * Greene's Structural Mechanics 8vo, 2 50 
 
 Hall's Car Lubrication i2mo, 1 00 
 
 Holly's Art of Saw Filing i8mo, 75 
 
 James's Kinem~ tics of a Point and the Rational Mechanics of a Particle. 
 
 Small 8vo, 2 00 
 
 * Johnson's (W. W.) Theoretical Mechanics i2mo, 3 00 
 
 Johnson's (L. J.) Statics by Graphic and Algebraic Methods 8vo, 2 00 
 
 Jones's Machine Design: 
 
 Part I. Kinematics of Machinery 8vo, 1 50 
 
 Part II. Form, Strength, and Proportions of Parts 8vo, 3 00 
 
 Kerr's Power and Power Transmission 8vo, 2 00 
 
 Lanza's Applied Mechanics 8vo, 7 50 
 
 Leonard's Machine Shop, Tools, and Methods 8vo, 4 00 
 
 * Lorenz's Modern Refrigerating Machinery. (Pope, Haven, and Dean.). 8vo, 4 00 
 MacCord's Kinematics; or, Practical Mechanism 8vo, 5 00 
 
 Velocity Diagrams 8vo, 1 50 
 
 Maurer's Technical Mechanics 8vo, 4 00 
 
 Merriman's Mechanics of Materials 8vo, 5 00 
 
 * Elements of Mechanics i2mo, 1 00 
 
 * Michie's Elements of Analytical Mechanics 8vo, 4 00 
 
 Reagan's Locomotives: Simple, Compound, and Electric nmo, 2 50 
 
 Reid's Course in Mechanical Drawing 8vo, 2 00 
 
 Text-book of Mechanical Drawing and Elementary Machine Design. 8vo, 3 00 
 
 Richards's Compressed Air i2mo, 1 50 
 
 Robinson's Principles of Mechanism 8vo. 3 00 
 
 Ryan, Norris, and Hoxie's Electrical Machinery. Vol. 1 8vo, 2 50 
 
 Schwamb and Merrill's Elements of Mechanism 8vo, 3 00 
 
 Sinclair's Locomotive-engine Running and Management i2mo, 2 00 
 
 Smith's (0.) Press-working of Metals 8vo, 3 00 
 
 Smith's (A. W.) Materials of Machines i2mo, 1 00 
 
 Smith (A. W.) and Marx's Machine Design 8vo, 3 00 
 
 Spangler, Greene, and Marshall's Elements of Steam-engineering 8vo, 3 00 
 
 Thurston's Treatise on Friction and Lost Work in Machinery and Mill 
 
 Work 8vo, 3 00 
 
 Animal as a Machine and Prime Motor, and the Laws of Energetics. 
 
 i2mo, 1 00 
 
 Warren's Elements of Machine Construction and Drawing 8vo, 7 50 
 
 Weisbach's Kinematics and Power of Transmission. (Herrmann — Klein.). 8vo, 5 00 
 
 Machinery of Transmission and Governors. (Herrmann — Klein. ).8vo, 5 00 
 
 Wood's Elements of Analytical Mechanics 8vo, 3 00 
 
 Principles of Elementary Mechanics i2mo, 1 25 
 
 Turbines 8vo, 2 50 
 
 The World's Columbian Exposition of 1893 4to, 1 00 
 
 15 
 
METALLURGY. 
 
 Egleston's Metallurgy of Silver, Gold, and Mercury: 
 
 Vol. I. Silver 8vo, 7 50 
 
 Vol. II. Gold and^Mercury 8vo, 1 50 
 
 ** Iles's Lead-smelting. (Postage cents additional.) nmo, 2 50 
 
 Keep's Cast Iron 8vo, 2 50 
 
 Kunhardt's Practice of Ore Dressing in Europe 8vo, 1 50 
 
 Le Chatelier's High-temperature Measurements. (Boudouard — Burgess. )i2mo, 3 00 
 
 Metcalf's Steel. A Manual for Steel-users i2mo, 2 00 
 
 Minet's Production of Aluminum and its Industrial Use. (Waldo.). . . . i2mo, 2 50 
 
 Robine and Lenglen's Cyanide Industry. (Le Clerc.) 8vo, 
 
 Smith's Materials of Machines i2mo, 1 00 
 
 Thurston's Materials of Engineering. In Three Parts 8vo, 8 00 
 
 Part II. Iron and Steel 8vo, 3 50 
 
 Part III. A Treatise on Brasses, Bronzes, and Other Alloys and their 
 
 Constituents 8vo, 2 50 
 
 Ulke's Modern Electrolytic Copper Refining 8vo, 3 00 
 
 MINERALOGY. 
 
 Barringer's Description of Minerals of Commercial Value. Oblong, morocco, 2 50 
 
 Boyd's Resources of Southwest Virginia 8vo, 3 00 
 
 Map of Southwest Virignia Pocket-book form. 2 00 
 
 Brush's Manual of Determinative Mineralogy. (Penfield.) 8vo, 4 00 
 
 Chester's Catalogue of Minerals 8vo, paper, 1 00 
 
 Cloth, 1 25 
 
 Dictionary of the Names of Minerals 8vo, 3 50 
 
 Dana's System of Mineralogy Large 8vo, half leather, 12 50 
 
 First Appendix to Dana's New " System of Mineralogy." Large 8vo, 1 00 
 
 Text-book of Mineralogy 8vo, 4 00 
 
 Minerals and How to Study Them i2mo, 1 50 
 
 Catalogue of American Localities of Minerals Large 8vo, 1 00 
 
 Manual of Mineralogy and Petrography nmo, 2 00 
 
 Douglas's Untechnical Addresses on Technical Subjects i2mo, 1 00 
 
 Eakle's Mineral Tables 8vo, 1 25 
 
 Egleston's Catalogue of Minerals and Synonyms 8vo, 2 S» 
 
 Hussak's The Determination of Rock-forming Minerals. ( Smith.). Small 8vo, 2 00 
 
 Merrill's Non-metallic Minerals: Their Occurrence and Uses 8vo, 4 00 
 
 * Penfield's Notes on Determinative Mineralogy and Record of Mineral Tests. 
 
 8vo, paper, 50 
 Rosenbusch's Microscopical Physiography of the Rock-making Minerals. 
 
 (Iddings.) 8vo, 5 00 
 
 * Tillman's Text-book of Important Minerals and Rocks 8vo, 2 00 
 
 MINING. 
 
 Beard's Ventilation of Mines i2mo, 2 50 
 
 Boyd's Resources of Southwest Virginia 8vo, 3 00 
 
 Map of Southwest Virginia Pocket-book form 2 00 
 
 Douglas's Untechnical Addresses on Technical Subjects nmo, 1 00 
 
 * Drinker's Tunneling, Explosive Compounds, and Rock Drills. .4to,hf. mor., 25 00 
 
 Eissler's Modern High Explosives 8vo, 4 00 
 
 16 
 
Fowler's Sewage Works Analyses i2mo, 2 00 
 
 Goodyear's Coal-mines of the Western Coast of the United States nmo, 2 50 
 
 Ihlseng's Manual of Mining 8vo, 5 00 
 
 ** lles's Lead-smelting. (Postage ox. additional.) i2mo, 2 50 
 
 Kunhardt's Practice of Ore Dressing in Europe 8vo, 1 50 
 
 O'Driscoll's Notes on the "treatment of Gold Ores 8vo, 2 00 
 
 Robine and Lenglen's Cyanide Industry. (Le Clerc.) 8vo, 
 
 * Walke's Lectures on Explosives 8vo, 4 00 
 
 Wilson's Cyanide Processes i2mo, 1 50 
 
 Chlorination Process i2mo, 1 50 
 
 Hydraulic and Placer Mining i2mo, 2 00 
 
 Treatise on Practical and Theoretical Mine Ventilation i2mo, 1 25 
 
 SANITARY SCIENCE. 
 
 Bashore's Sanitation of a Country House i2mo, 
 
 Folwell's Sewerage. (Designing, Construction, and Maintenance.) 8vo, 
 
 Water-supply Engineering 8vo, 
 
 Fuertes's Water and Public Health i2mo, 
 
 Water-filtration Works i2mo, 
 
 Gerhard's Guide to Sanitary House-inspection i6mo, 
 
 Goodrich's Economic Disposal of Town's Refuse Demy 8vo, 
 
 Hazen's Filtration of Public Water-supplies 8vo, 
 
 Leach's The Inspection and Analysis of Food with Special Reference to State 
 
 Control 8vo, 
 
 Mason's Water-supply. (Considered principally from a Sanitary Standpoint) 8vo, 
 
 Examination of Water. (Chemical and Bacteriological.) i2mo, 
 
 Ogden's Sewer Design i2mo, 
 
 Prescott and Winslow's Elements of Water Bacteriology, with Special Refer- 
 ence to Sanitary Water Analysis i2mo, 
 
 * Price's Handbook on Sanitation i2mo, 
 
 Richards's Cost of Food. A Study in bietaries i2mo, 1 00 
 
 Cost of Living as Modified by Sanitary Science i2mo, 1 00 
 
 Richards and Woodman's Air. Water, and Food from a Sanitary Stand- 
 point 8vo, 2 00 
 
 * Richards and Williams's The Dietary Computer 8vo, 1 50 
 
 Rideal's Sewage and Bacterial Purification of Sewage 8vo, 3 50 
 
 Turneaure and Russell's Public Water-supplies 8vo, 5 00 
 
 Von Behring's Suppression of Tuberculosis. (Bolduan.) i2mo, 1 00 
 
 Whipple's Microscopy of Drinking-water 8vo, 3 50 
 
 Winton's Microscopy of Vegetable Foods 8vo, 7 50 
 
 Woodhull's Notes on Military Hygiene i6mo , 1 50 
 
 MISCELLANEOUS. . 
 
 De Fursac's Manual of Psychiatry. (Rosanoff and Collins.). . . .Large i2mo, 2 50 
 Emmons's Geological Guide-book of the Rocky Mountain Excursion of the 
 
 International Congress of Geologists Large 8vo, 1 50 
 
 Ferrel's Popular Treatise on the Winds 8vo. 4 00 
 
 Haines's American Railway Management i2mo, 2 50 
 
 Mott's Fallacy of the Present Theory of Sound i6mo, 1 00 
 
 Ricketts's History of Rensselaer Polytechnic Institute, 1824-1894. . Small 8vo, 3 00 
 
 Rostoski's.Serum Diagnosis. (Bolduan.) i2mo, 1 00 
 
 Rotherham's Emphasized New Testament Large 8vo, 2 00 
 
 17 
 
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Steel's Treatise on the Diseases of the Dog 8vo. 3 50 
 
 The World's Columbian Exposition of 1893 4to, 1 00 
 
 Von Behring's Suppression ot Tuberculosis. (Bolduan.) i2mo, 1 00 
 
 Winslow's Elements of Applied Microscopy nmo, I SO 
 
 Worcester and Atkinson. Small Hospitals, Establishment and Maintenance; 
 
 Suggestions for Hospital Architecture : Plans for Small Hospital . i2mo, 1 25 
 
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 Green's Elementary Hebrew Grammar nmo, 1 25 
 
 Hebrew Chrestomathy 8vo, 2 00 
 
 Gesenius's Hebrew and Chaldee Lexicon to the Old Testament Scriptures. 
 
 (Tregelles.) Small 4to, half morocco, 5 00 
 
 Letteris's Hebrew Bible 8vo, 2 25 
 
 18 
 
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