[Two hours a week for one term .]
V III.
M a c h i n e D r a w i n g. A continuation of Course I.
and II. em bracing advanced work in machine draw ing and th e elem entary principles of mechanical de
sign w ith calculation of dimensions and construction of drawings from sketch-book notes. Text-book, Low s Machine Dyawing and Design.
[Three hours a week for tw o terms.]
ELECTRICAL ENGINEERING I.
A p p l i e d E l e c t r i c i t y. A course of lectures and recitations, supplem ented by laboratory practice, on th e general theory of electricity and m agnetism and its application to practical work, as follows: Setting up and testin g prim ary and secondary batteries, systems of call beds, electric and gas lighting appliances, h ie and burglar alarm s, telegraph and telephone lines, sw itch boards and accessories. Experim ents w itn induction coils, m agnets, switches, voltm eters, am- m eters, w heatstone bridges, galvanom eters and other m easuring instrum ents. The stu d y of direct current generators and m otors, arc and incandescent figuring system s, street railw ay m achinery and apphances,
elec-7 4 b u l l e t i n o e t h e
trie heating and forging, electrolytic process, etc.
Text-book, Swoope’s Practical Electricity.
[Five hours a week for two terms.]
II.
Ap p l i e d E l e c t r i c i t y. Lectures and lab o rato ry work on th e construction and testing of switches, m agnets, m easuring instrum ents, induction coils, etc.
The calculation of sizes of wire and location of circuits for lighting and power, th e experim ental stu d y of altern atin g current m achinery and accessories.
If th e stu d en t has acquired sufficient skill in handling to ols in his workshop, he m ay design and build a small .dynam o, startin g w ith rough castings, doing all th e fittin g and finishing, winding and adjusting, and finally testin g for insulation, efficiency, and ad ap tab ility to special purposes. This course m u st be preceded by Course I. {Course I. and II. are required, in the Short Program Electrical Engineering; they are elective fo r general students and those studying telegraphy.)
(Five hours a week for two terms.]
III.
D y n a m o- E l e c t r i c Ma c h i n e r y. R ecitations on the physical reactions, characteristic curves, m echanical points, th e o ry of arm ature winding, th e m athem atical th e o ry of altern atin g currents, phase relations, m odern form s of single phase, and m ultiphase generators and ' m otors, design of transform ers. Text-books, Sheldon’s Dynamo Electric M achines, Sheldon and M ason’s Alter- h a tin g Currents.
[Four hours a week for two term s.]
IV.
El e c t r i c a l La b o r a t o r y. P ractical w ork a t wiring buildings for lights and power, testin g circuits for
UNIVERSITY OR NOTRE DAME 75
insulation and grounds, construction and operation of storage batteries, m anagem ent and care of dynamos, characteristic curves of particular m achines under -different conditions, efficiency, tests of m otors by absorption dynam om eter m ethods, alternating current dynam o and transform er tests, th e testing of storage batteries, and complete p lan t efficiency tests. Careful notes are taken.
[Four hours a week for two term s.]
V.
D e s i g n i n g. The designing and m aking of working drawings of switches, resistance and other electrical apparatus. Calculation of sizes of wire and location of circuits for lighting buildings. Complete drawing of direct and alternating current dynamos. Laying out plants for power and lighting.
[Two hours a week for two terms.]
VI.
D y n a m o Ma c h i n e r y. Laboratory. S tu d y of funda
m ental principles, characteristics of D . C. dynamos, speed and torque of m otors, A. C. generators and m otors, transform ers and accessories, power m easurem ents and efficiency tests.
[Three hours a week for te n weeks.]
V II.
Ap p l i e d E l e c t r i c i t y, La b o r a t o r y a n d Le c t u r e s
on th e use of electricity in buildings, systems of wiring, m aterials used, th e U nderw riting requirem ents for stu d y bells and telephones, electric lighring, p h o to m e try a n d " illumination." F o r students in Architecture.
[One hour a week for one term .]
* V III.
P o w e r Tr a n s m i s s i o n. Lectures and recitations on
7 6 b u l l e t i n o b t h e
pole lines, underground work, lim its of voltage, insu lators, choice of frequency, cost of construction, de
preciation and other financial m atters.
[One hour a week for one term .]
IX .
E l e c t r i c R a i l w a y s . Lectures and recitations on tra c k and overhead construction, cars, trucks, m otors and system s of control for b o th direct and a lte rn a t
ing current, sub-stations, operation and financial considerations.
[One hour a week for one term .]
X.
Te l e p h o n y. L aboratory and lectures on general principles, intercom m unicating systems, sw itchboard system s, m anual and autom atic, operation, cost of equipm ent, m aintenance and depreciation.
[One hour a week for one term .]
X I.
W i r e l e s s T e l e g r a p h y a n d T e l e p h o n y. E xperi
m ental practice and lectures on th e theories invoved in th e construction and opertaion of th e leading systems, osculators and sending apparatus, detectors and receiv
ing devices, tu rn in g to p rev en t interference.
[Two hours a week for one term .]
X II.
Il l u m i n a t i n g E n g i n e e r i n g. Lectures on th e theory and operation of th e various kinds of electric and other lam ps, distribution of light and th e location of lam ps to produce th e best illum ination, practical problems and th e stu d y of particular institutions th e cost per candle power or per candle foot including first cost, attendance, breakage and depreciation.
[Two hours a week for ten weeks.]
UNIVERSITY OR NOTRE DAME 77
X III.
In s p e c t i o n Tr i p t o Ch i c a g o. S tu d y of th e larger power, lighting and telephone installations also factory m ethods in several typical industrial establishm ents, trip s to th e hydraulic and steam generating plants along th e S t .Joseph river.
ENGLISH I.
Ge n u n g’s P r i n c i p l e s o e R h e t o r i c. A stu d y of th e complete te x t. F req u en t practice in simple them e work, versification. W riting in all literary forms and assigned readings.*
[Three hours a week for two term s.]
GEOLOGY I.
P r i n c i p l e s o e Ge o l o g y. Lectures, recitations, dem onstrations. The stu d y of th e general features of th e e a r th ; th e m aterial composing th e accessible p a rts of th e e a r th ; th e arrangem ents of th e m aterial in rocks;
th e causes of geological changes; th e history of th e e arth and th e various forms of life th a t existed in th e different periods of successive geological ages. T ex t
book, Brigham.
[Four hours a week for one term .]
II.
Mi n e r a l o g y. The object of th is course is to tra in th e stu d e n t to identify m inerals by their physical characteristics, such as crystal form, cleavage, color, hardness and specific gravity w ithout having to resort
* E very Freshman w ill be obliged to follow a class in correct E nglish, one hour a week, unless his written work gives evidence that he m ay b e dispensed from this special exercise.
7 8 BULLETIN OP THE
to blowpipe or chemical tests except in th e rare m inerals R ecitations are m ade upon drawers of m inerals in which th e stu d en t points out th e distinguishing features by which he recognizes th e different minerals. T e x t
book, D ana.
[Five hours a week for tw o terms.]
III.
Mi n e r a l o g y. Lectures, recitations, and labo ratory work. A stu d y of crystallography and th e classification of minerals, accom panied by practice in th e lab o rato ry and m useum in th e determ ination of minerals, especially th e ores. Blow-pipe analysis. Text-book, Crosby.
[Two hours a week for one term .]
IV.
Cr y s t a l l o g r a p h y. In this c o u r s e there is m ade a com plete s tu d y of th e laws in th e different system s of crystal form ation, by m eans of lab o ratory work in models, n a tu ra l crystals and c l e a v a g e specimens. T ex t
book, W illiam s.
V.
Pe t r o g r a p h y. This course is a stu d y of rocks w ith regard to th e ir classification, structure, m ineralogical constituents, chemical composition and alteratio n s; a stu d y of th e physical characters of th e m inerals shown in th in tra n sp a re n t rock sections w ith th e aid o f the microscope; a practical s t u d y of rocks in the hand specimens and also in sum m er field work.
[Two hours a week for two terms.]
V I.
Ge o l o g y, Ph y s i c a l a n d Ch e m i c a l. A course treatin g of th e origin and alterations of rocks, of general eruptive and earth qu ake action, m etam orphism , faulting, joint-
i n g , a n d m o u n t a i n b u i l d i n g : t h e a c t i o n o f a t m o s p h e r i c
UNIVERSITY OE NOTRE DAME 79
agencies, surface and underground w ater. All of which subjects are especially considered in th eir application to m ining pursuits. Text-book, Chamberlain-and Sa lis
bury’s Geology.
[Three hours a week for one term .]
V II.
Ge o l o g y, E c o n o m i c Mi n i n g. A stu d y of th e genesis of th e useful ore deposits, both m etallic and non- m etallic; an analysis of th e relation existing between stru ctu ral, dynam ic and chemical geology, petrography and th e ore deposits encountered in mining operations.
F req u en t reference is m ade to th e bulletins, m onographs and reports of th e United S tates Geological Survey.
Text-books, Spurr, Reis.
[Two hours a week for one term .]
GERMAN I.
G ram m ar, Thomas. T ranslation from Germ an into English of simple prose; tran slatio n of English exercises into German. R eading of short stories and selections from m ore difficult prose.
G erm an R eader, M iller and Wenkelbach.
[Five hours a week for two term s.]
II.
Gram m ar, Thomas. T ranslation into German of n arra tiv e prose and selections from history. Sight reading of selections from history.
H erm an and D orothea, Goethe; Lichtenstein, Hauff.
[Four hours a week for tw o term s.]
III.
G ram m ar, Thomas. Sight reading of plays, poems
S o B U ^ I N OE THE
and prose writing. T ranslation of selections from h isto ry and lite ra tu re ; original essays.
Minna von Barnkelm , Lessing; Best known poems, Heine; Correspondence, Schiller-Goethe.
[Four hours a week for tw o term s.]
HISTORY lib .
A general course in m odern h isto ry w ith special reference to its m ost im p o rtan t periods.
[Four hours a week for one term .]
MATHEMATICS I.
Al g e b r a. This course includes a stu d y of th e bino
m ial theorem , th e th eo ry of logarithm s, choice, chance, variables and limits, series, determ inants. Then follows a thorough stu d y of th e general properties and solution of equations, em bracing th e subjects of derivatives, transform ation, detached coefficients, surd and im agi
n a ry roots, incom m ensurable roots, lim its of roots, b iquadratic equations, DesCartes' and C ardan’s ru le s;
S tu rm ’s theorem , H o rn er’s m ethod. Text-book, Wentworth.
[Five hours a week for one term .]
II.
An a l y t i c Ge o m e t r y. This course includes a stu d y of th e p o int and right line; conic sections; th eir equations and p ro p erties; discussion of th e general equation of th e second degree containing tw o variables; different system s of co-ordinates; transform ation of co-ordinates;
an elem entary course in geom etry of three dimensions, em bracing th e point, straig h t line, plane and surfaces
i
UNIVERSITY OR NOTRE DAME 81
of revolution; transform ation of co-ordinates; quadric surfaces and supplem entary propositions. Text-book,
Bailey and Woods.
[Five hours a week for one term .]
III.
Ca l c u l u s, D i e e e rEnTi a l. This course as also Courses IV. and V.. is designed to m eet th e requirem ents of Engineering students. I t includes a stu d y of th e m ethods for th e differentiation of algebraic, logarithm ic and exponential, trignom etric, and inverse trigonom etric functions, successive differentiation, and differential coefficients; tre a tm e n t of im plicit and com pound fu n ctio n s; expansion of fu nctio n s; indeterm inate fo rm s;
p artial differential coefficients of th e first order and of higher o rd ers; direction of c u rv a tu re ; radius of curva
tu re ; envelopes; m axim a and m inim a of functions of one independent variable, and of several independent variab les; tracing cu rv es; differentials of arcs, plane areas, surfaces and volum es of revolution. Text-book, Osborn.
[Five hours a week for one term .]
IV.
Ca l c u l u s, In t e g r a l. In teg ratio n of elem entary form and of rational fractio n s; integration by rationalization and by p a r ts ; successive in te g ra tio n ; m ultiple in teg rals;
definite integrals, lim its of integration; double in teg ra
tio n applied to plane a re a s; rectification of plane cu rves;
quadratures of plane areas and surfaces of revolution;
surface and volum e of any solid; intrinsic equation of curve. This course is supplem ented by num erous exercises and examples. Text-book, Osborn.
[Five hours a week for twelve weeks.]
8 2 BULLETIN OF THE
V.
D i f f e r e n t i a l E q u a t i o n s. An elem entary course for Engineering students, supplem entary to th e course of integral calculus. I t em braces equations of th e first order and degree; equations of th e first order, b u t n ot of th e first degree; singular solutions; linear e q u a tions w ith co n stan t coefficients; special forms of equa
tions w ith higher orders. Num erous applications to mechanics and physics are introduced during th e course.
Text-book, M urray.
[Five hours a week for six weeks.]
Ad v a n c e d W o r k. The prescribed courses i n pure m athem atics are I. to V. inclusive. The following advanced courses are offered/based on stan d a rd authors.
The text-books are n o t necessarily th e sam e every year. The num ber of students required to co n stitu te a class in an y one subject m u st be a t least five.
(a) H igher Algebra, Hall and Knight, Sm ith, Crystal.
(b) Advanced work in Trigonom etry, Todhunter, Lock.
(c) D eterm inants, Peck, H anus, M uir, (d) Theory of Equations, Burnside and Panton. (e) A dvanced Calculus, Byerly, Todhunter, W illiam son. (f ) Advanced A nalytic Geometry, Salmon, (g) A nalytic G eom etry of Three Dimensions, Aldis, Frost, Salmon, (h) Q uaternions, Hardy w ith Kelland and T a it as reference.
[Three hours’ recitation a week for one subject.]
MECHANICAL ENGINEERING