Objetivos específicos

Junior Summer School, 287 (four weeks)

Fifth Semester Kinematics 259 (1 + 3 + 2 ) 2 Materials Lab. 145 ( 0 + 4 + 2 ) 2 Mechanics 135 ( 3 + 0 + 6 ) 3 Str. of Materials 1 3 1 . . . . ( 4 + 0 + 8 ) 4 Thermodynamics 269. . . . ( 3 + 0 + 6 ) 3 Option ( 3 + 0 + 6 ) 3 Military 905 2 Semester Hours 19 Sixth Semester Economics 752 ( 3 + 0 + 6 ) 3 Heat Engr. 270 ( 3 + 0 + 6 ) 3 Hydraulics 264 ( 3 + 0 + 6 ) 3 Machine Design 260 (1 + 3 + 2) 2 Laboratory 280 ( 0 + 4 + 2 ) 2 Option ( 3 + 0 + 6 ) 3 Military 906 2 Semester Hours 18 SENIOR YEAR

Senior Summer School, 289 (four weeks)

Seventh Semester Elem. of E. E. 229 ( 3 + 0 + 6 ) 3 Heat Engr. 271 ( 3 + 0 + 6 ) 3 Machine Design 261 (1 + 6 + 2 ) 3 Laboratory 281 (0 + 3 + 3) 2 Seminar 285 ( 1 + 0 + 2 ) 1 Options ( 6 + 0 + 1 2 ) 6 Military 907 2 Semester Hours 2 0 Eighth Semester Elem. of E. E. 230 ( 3 + 0 + 6 ) 3 Heat Engr. 272 ( 3 + 0 + 6 ) 3 Machine Design 262. . . . ( 2 + 6 + 2) 3 Laboratory 282 ( 0 + 3 + 3 ) 2 Seminar 286 ( 1 + 0 + 2 ) 1 Options ( 6 + 0 + 1 2 ) 6 Military 908 2 Semester Hours 20 Technical Options Foundations 172 ( 3 + 0 + 6 ) 3 Power Plants 266 ( 3 + 0 + 6 ) 3 Sanitary Engr. 154 ( 3 + 0 + 6 ) 3 Aviation Engines 292. . . ( 3 + 0 + 6 ) 3 AirCond. 296 ( 3 + 0 + 6 ) 3 Thesis 298 3 Technical Options Geology 171 ( 3 + 0 + 6 ) 3 Power Plants 275 ( 3 + 0 + 6 ) 3 Water Supply 153 ( 3 + 0 + 6 ) 3 Aerodynamics 291 ( 3 + 0 + 6 ) 3 Refrigeration 295 ( 3 + 0 + 6 ) 3 Thesis 297 3

The three figures in parentheses show respectively: the hours of lecture or recita- tion; the hours of field, laboratory, drafting, or computations; and the hours of pre- paration per week.

A semester hour is three hours of work per week for one semester. 2 5 1 - 2 . Engineering Survey

General discussion of engineering problems and the history of mechanical engineering. Credit 2 2 5 5 - 6 . Shop Practice

Consists of general shop practice, the aim of which is to familiarize the student with hand and machine tools and processes, and to indicate the possibilities of machines and materials. The course is conducted as a practical machine tool laboratory rather than a vocational shop. Includes the fundamentals of wood working, pattern making, machine shop, forge and foundry. Credit 2 2 5 9 . Kinematics ( 4 9 6 and 122)

Study of displacement, velocity and acceleration in machine parts, supplemented by drawings of cams, gear teeth, velocity and acceleration diagrams. Credit 2

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2 6 0 . Machine Design (122 and 131)

Elementary design of stationary machine parts, based upon strength, rigidity, kind of material, safety, appearance and economical production. Credit 2 2 6 1 . Machine Design ( 1 3 5 and 2 6 0 )

Continuation of 260, including more advanced principles of design, critical speeds, vibrations and balancing of machine parts. Credit 3

2 6 2 . Machine Design (261)

Standard specifications in design, relations of separate parts, assemblies, and analysis of a complete machine. Credit 3

2 6 3 . Hydraulics (122)

The fundamentals of hydrostatics and hydronamics. Pressure beneath liquids, in pipe lines and on submerged gates, buoyancy and flotation; discharge through pipes and open channels, through orifices and nozzles and over weirs; theory of stream measurement. Credit 3 2 6 4 . Hydraulics

Same as 263. Credit 3 2 6 6 . Power Plants, Hydro-electric ( 2 6 3 or 2 6 4 )

A general study of hydro-electric power plants, precipitation, run off, stream flow, available power, turbines and structures. Credit 3 2 6 9 . Thermodynamics ( 4 6 1 and 4 0 3 )

Study of the fundamental laws of thermodynamics and their applications to perfect gasses, saturated and superheated vapors, and the analysis of cycles. Credit 3

2 7 0 . Heat Engineering (269)

Study of steam, air and gas power, with descriptions, illustrations, with the theory of construction, application and performance of modern heat-power plants and their correlated equipment. Credit 3

2 7 1 . Heat Engineering (269)

Study of internal combustion engines, theoretical cycles, carburetion, manifolding, compression ratios, efficiencies and performance characteristics for both the Otto and Diesel cycles, with practical applications. Credit 3

2 7 2 . Heat Engineering ( 2 6 9 )

Study of principles and determination heat loss from buildings, methods of heating, ventilation and air conditioning. Fundamental principles of refrigeration. Credit 3

273. Heat Engineering (461 and 403)

Fundamentals of thermodynamics of gasses and vapors as applied to steam and gas power plants. Credit 3

274. Heat Engineering (273)

Applications of thermodynamics, different types of prime movers and power plant auxiliaries with reference to their comparative performance and efficiency. Credit 3

C O U R S E IN MECHANICAL ENGINEERING

2 7 5 . Power Plants, Steam ( 2 6 9 or 2 7 3 ) Study of steam power plants, modern vapor cycles, combustion and steam boilers, feed water treatment, piping and control instruments. Credit 3 2 8 0 . Mechanical Engineering Laboratory ( 2 6 2 , concurrent with 2 6 4 ) Elementary experimental work such as calibration of instruments, operation of steam and gas engines, mechanical efficiency tests, flow of liquids in closed pipes, orifices, open channels and over weirs. Credit 2

2 8 1 . Mechanical Engineering Laboratory ( 2 8 0 ) Continuation of M.E. 280, economy tests of steam and gas engines, operation of the

Diesel engine, automobile ignition and acceleration tests, study of heating plant and exhaust gas analysis, characteristics of pumps and water wheels. Credit 2

2 8 2 . Mechanical Engineering Laboratory (280) Continuation of M. E. 281, economy tests and heat balance of steam and gasoline

engines, boiler test, condenser test, air machinery, principles of refrigeration and aerodynamics.

2 8 3 . Mechanical Laboratory (264) Laboratory studies of flow of liquids in closed pipes, open channels, and over weirs.

Operating characteristics of pumps and flow meters. Calibration of instruments, adjust- ment and operation of machines, measurement of power, determination of mechanical and thermal efficiencies of engines. Study and test of steam power plant equipment. Study of the refrigeration cycle. Credit 2 2 8 4 . Mechanical Laboratory ( 1 3 2 and 2 6 3 ) This laboratory combines strength of materials, hydraulics, mechanical and aeronautical experimental work under one head. Each cadet is given as much opportunity as possible to devote his time to the field in which he is most interested. Credit 2 2 8 5 - 6 . Seminar

Preparation, presentation, and discussion of papers on current engineering topics. Serves as American Society of Mechanical Engineers contact for mechanical engineering seniors. Credit 2

2 8 7 . Junior Summer School (256) Four weeks of general shop practice, continuation of M.E. 256, visits to varied indus-

trial plants, observation of management and machine tool methods, and including a complete report on method and principles observed. Credit 3

2 8 9 . Senior Summer School (287) Four weeks of general shop practice, continuation of M.E. 287, construction of machine

parts, study and illustration of production methods. Credit 3 Subject to approval, six weeks or more of outside work in industry may be accepted in place of either summer practice term, upon payment of the practice term fee.

2 9 1 . Aerodynamics ( 1 3 5 ) Study of principles of aerodynamics, which is not highly technical but includes sound

fundamentals developed and supplied with sufficient descriptive matter to equip the cadet in such elements of the subject as may be helpful to him in the field of aeronautics.

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2 9 2 . Aviation Engines

Study of the different types and characteristics of aviation engines, performance, lubrication and fuel systems. Credit 3

295. Refrigeration ( 2 6 9 )

Study of systems of refrigeration including transfer to heat, heat insulation, apparatus for making ice, cold storage, and domestic refrigeration. Credit 3

2 9 6 . A i r Conditioning (269) Study of principles of residence air conditioning, controls, air distribution, cooling

coil performance, cooling load calculations, and practical selection and design of air conditioning machinery for specific purposes. Credit 3 2 9 7 - 8 . Thesis

The preparation during the senior year, or one semester during the senior year, of a thesis on original research, design or design and construction. Limited to cadets who have

shown special aptitude for original work. C r e d i t 6 o r 3

M I L I T A R Y

Lieut.-Col. A N D R E W ; Captains R U F F N E R and BARNES

9 0 1 - 2 . First Year Basic (freshman y e a r )

The National Defense Act and the R. O. T. C . ; obligations of citizenship; military history and policy of the United States; military discipline, courtesies and customs of the service; military sanitation and first aid; military organization and organization of the cavalry; interior guard duty; map reading; cavalry drill; horsemanship; cavalry weapon—the rifle. Credit 4 9 0 3 - 4 . Second Year Basic (sophomore y e a r )

Military history; military sketching; cavalry drill; horsemanship; cavalry weapons— rifle, pistol, and light machine gun; musketry; scouting and patrolling; combat prin- ciples of the rifle squad and platoon. Credit 4 9 0 5 - 6 . First Year Advanced (junior y e a r )

Aerial photo reading; care of animals and stable management; principles of leadership; horsemanship; cavalry weapons; pistol marksmanship; heavy machine guns; armored cars; scout cars; combat vehicles; combat orders and solution of problems; marches, security, offensive and defensive combat; combat principles of the rifle platoon, machine gun platoon and antitank section of the machine gun troop; field engineering; communications-

Credit 4 9 0 7 - 8 . Second Year Advanced (senior y e a r )

Military history and policy of the United States; military law; administration; supply and mess management; emergency procurement of property and funds; Officers Reserve Corps Regulations; principles of leadership; horsemanship; armored cars, scout cars, combat vehicles; review of combat training; antiaircraft defense, defense against chemical warfare, combat intelligence. Credit 4

GENERAL INFORMATION