Distribución espacial y temporal de la pesca

Seventh Semester Adv. Inorganic Chemistry 4 1 ( 3 + 0 + 6 ) 3 Physical Chemistry 4 5 . . . ( 3 + 0 + 6 ) 3

Adv. Org. Chem. 37 ( 0 + 6 + 3 ) 3 Business L a w 7 5 7 ( 3 + 0 + 6 ) 3 Phys. Chem. Lab. 4 7 . . . . ( 0 + 6 + 3 ) 3

Option 3 M i l i t a r y 9 0 7 2 . Semester Hours 2 0 Eighth Semester Adv. Inorganic Chemistry 4 2 ( 3 + 0 + 6 ) 3 Physical Chemistry 4 6 . . . ( 3 + 0 + 6 ) 3 Adv. Org. Chem. 3 8 ( 0 + 4 + 2 ) 2 Chem. Literature 5 2 ( 1 + 0 + 2 ) 1 Phys. Chem. Lab. 4 8 . . . . ( 0 + 6 + 3 )

or Thesis 5 0 3 Option 3 Military 9 0 8 2

Semester Hours 17 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 w e e k .

A semester hour is three hours of w o r k per w e e k for one semester. 1-2. General Chemistry

A study of the more common elements and compounds, and the fundamental l a w s and principles of chemical action. For cadets in the Chemistry course. C r e d i t 8

M W F 3. Th F 5-6. 3-4- General Chemistry

Similar to 1-2. For cadets in the Engineering courses. C r e d i t 8 T Th S 4. T 5 - 6 or M W F 4. M 5-6.

5-6. General Chemistry

Similar to 1-2 For cadets in the Liberal Arts course. Classroom, three hours; laboratory periods, one. C r e d i t 6

M W F 3. W 6-7.

12. Stoichiometry ( 2 ) The solution of quantitative chemical problems. C r e d i t 3

21-2. Qualitative Analysis ( 2 ) A systematic study of the reactions and the theory involved in the separation, recog-

nition, and approximate quantitative determination of the common cations and anions. W F 1 . T Th S 3-4. C r e d i t 8

27-8. Quantitative Analysis ( 2 2 ) The theory and practice of typical methods in quantitative analysis. C r e d i t 8

W F 3. T Th 5-6-7.

31-2. Organic Chemistry ( 2 2 ) Introduction to the study of the carbon compounds; preparation of typical organic

compounds. C r e d i t 8 T Th S 2. M 5-6. W 6-7.

37. Advanced Organic Chemistry (32 or 34)

Q u a l i t i t a t i v e analysis of organic compounds. C r e d i t 3

N O R W I C H UNIVERSITY

38. Advanced Organic Chemistry ( 3 7 ) Synthesis of organic compounds. Credit 2

W F 1-2.

4 1 ' 2 . Advanced Inorganic Chemistry (22 and 28, or 24) Based on Mellor, Modern Inorganic Chemistry. Credit 6

M W F 4.

45-6. Physical Chemistry (24 or 28) Principles and modern theories of chemistry. Credit 6

T T h S 2.

47-8. Physical Chemistry Laboratory (24 or 28) Experiments on physico-chemical principles. Credit 6

T Th 5-6-7. 50. Thesis

The preparation during the senior year of a thesis on some chemical subject approved by the Department. Credit 3 52. Chemical Literature

Reports and reviews, by cadets and instructors, of current boohs and journal articles. W 5. Credit 1 53-4. Methods and Practices of Teaching

Practice in presentation of the elementary principles of chemistry required in high school courses; supervised teaching of laboratory courses. Credit 6

C O U R S E IN CIVIL ENGINEERING

Lieut.-Col. W I N S L O W , Majors C A R L E T O N , EMERSON, A . D. T A Y L O R ; Lieutenant HYDEMAN

Majors Carleton and Taylor, Advisers

The C i v i l Engineering course leads to professional practice in the varied fields of engineering such as surveying, transportation, structural, w a t e r supply and sanitation, power, industrial, and municipal engineering. It also qualifies men to enter professional graduate schools and satisfies the requirements for professional registration in states having registration laws.

Graduates from this course also enter fields of business, teaching, sales- manship, insurance, public works departments, and other utilitarian life endeavors.

C O U R S E IN C I V I L ENGINEERING O U T L I N E OF C O U R S E FRESHMAN Y E A R First Semester Algebra 4 5 3 ( 3 + 0 + 6 ) 3 Chemistry 3 (3 + 2 + 7 ) 4 D r a w i n g 4 9 1 ( 0 + 6 + 0 ) 2 English 3 5 1 ( 3 + 0 + 6 ) 3 Analytic Geom. 4 5 5 . . . . ( 3 + 0 + 6 ) 3 Eng. Survey 101 ( 1 + 0 + 2 ) 1 Military 9 0 1 2 Semester Hours 18 Second Semester Calculus 4 6 0 ( 3 + 0 + 6 ) 3 Chemistry 4 (3 + 2 + 7 ) 4 D r a w i n g 4 9 2 ( 0 + 6 + 0 ) 2 English 352 ( 3 + 0 + 6 ) 3 Des. Geom. 4 9 4 ( 1 + 4 + 4 ) 3 Eng. Survey 102 ( 1 + 0 + 2 ) 1 Military 9 0 2 2 Semester Hours 18 SOPHOMORE Y E A R Third Semester Calculus 4 6 1 ( 3 + 0 + 6 ) 3 English 3 5 3 ( 3 + 0 + 6 ) 3 Physics 4 0 3 ( 5 + 0 + 1 0 ) 5 Physics Lab. 4 1 3 ( 0 + 3 + 3 ) 2 Surveying 103 ( 2 + 3 + 4 ) 3 Military 9 0 3 2 Semester Hours 18 Fourth Semester Diff. Equations 4 6 2 . . . . ( 3 + 0 + 6 ) 3 English 3 6 0 ( 3 + 0 + 6 ) 3 Physics 4 0 4 ( 5 + 0 + 1 0 ) 5 Physics Lab. 4 1 4 ( 0 + 3 + 3 ) 2 Surveying 104 (2 + 2 + 2 ) 2 Mechancis 122 ( 3 + 0 + 6 ) 3 Military 9 0 4 2 Semester Hours 2 0 JUNIOR Y E A R

Junior Summer School, 107 (four w e e k s )

Fifth Semester Graphics 181 ( 0 + 4 + 2 ) 2 Str. of Mat. 1 3 1 ( 4 + 0 + 8 ) 4 Materials 1 4 1 ( 2 + 0 + 4 ) 2 Materials Lab. 145 ( 0 + 4 + 2 ) 2 El. o f E . E. 2 2 9 ( 3 + 0 + 6 ) 3 Option ( 3 + 0 + 6 ) 3 Military 9 0 5 2 Semester Hours 18 Sixth Semester Economics 7 5 2 ( 3 + 0 + 6 ) 3 Curves & Earth. 1 1 0 . . . ( 2 + 2 + 5 ) 3

Hydraulics 2 6 4 ( 3 + 0 + 6 ) 3 Mechanics 1 3 4 ( 3 + 0 + 6 ) 3 Structures 182 ( 2 + 2 + 5 ) 3 Option ( 3 + 0 + 6 ) 3 Military 9 0 6 2 Semester Hours 2 0 SENIOR Y E A R

Senior Summer School, 109 (four w e e k s )

Seventh Semester Structures 183 ( 2 + 6 + 4 ) 4 Concrete Design 1 9 1 . . . . ( 1 + 4 + 4 ) 3 Geology 1 7 1 ( 3 + 0 + 6 ) 3 Laboratory 2 8 3 ( 0 + 4 + 2 ) 2 Options ( 6 + 0 + 1 2 ) 6 Military 9 0 7 2 Semester Hours 20 Eighth Semester Structures 1 8 4 ( 2 + 6 + 4 ) 4 Concrete Design 192 ( 1 + 4 + 4 ) 3 Foundations 172 ( 3 + 0 + 6 ) 3 Options ( 6 + 0 + 1 2 ) 6 Military 9 0 8 2 Semester Hours 18

NORWICH UNIVERSITY

Technical Options Technical Options

(At least one must be chosen) (At least one must be chosen)

Railroads 161 ( 3 + 0 + 6 ) 3 Highways 166 ( 3 + 0 + 6 ) 3 Highways 165 ( 3 + 0 + 6 ) 3 Highways, Lab. 146 ( 0 + 4 + 2 ) 2 Water Supply 153 ( 3 + 0 + 6 ) 3 Sanitary Eng. 154 ( 3 + 0 + 6 ) 3 Heat Engr. 273 ( 3 + 0 + 6 ) 3 Heat Engr. 274 ( 3 + 0 + 6 ) 3 Thesis 173 3 Power Plants 266 ( 3 + 0 + 6 ) 3

Thesis 174 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. 1 0 1 - 2 . Engineering Survey

General problems and background of the civil engineering profession. Credit 2 1 0 3 - 4 . Surveying

Plane surveying includes the use, adjustment, and care of instruments, land sur- veying methods, survey of public lands, stadia and azimuth methods of location, leveling, earthwork computations, city surveying, and elementary curve work; the advanced work includes topography, mining surveying, triangulation systems with reference to their control of topographic and municipal surveys, precise leveling, base line measure- ments, and methods of making hydrographic surveys of rivers and harbors. Open to cadets in the Liberal Arts Course. C r e d i t 5

M F 4. T 5-6-7. 1 0 5 . Surveying

Use and adjustment of the level and transit; note keeping; route and land surveys; map reading; plan development of buildings; topography and hydraulic development. For cadets in the E.E. or M.E. courses. C r e d i t 3

M F 1. W 5-6-7.

1 0 7 . Junior Summer School ( 1 0 4 )

Four weeks of field and. office work, seven hours each working day, comprising instru- mental work, notes, calculations, and drawings to complete maps and plans as taken up in theory in course 103-104. Credit 3

109. Senior Summer School (107 and 110)

Four weeks (as in 107), including a project survey which may include railroad, highway, or power development in the field. Credit 3

Subject to approval, six weeks or more of outside engineering experience may be accepted as an

option for either summer school, upon payment of the summer school fee.

1 1 0 . Curves and Earthwork ( 1 0 4 )

A study of the methods of staking out engineering work, of setting out and com- puting earthwork, the preparation and use of the mass diagram for determination of haul, and of borrow and waste; methods and mathematics of laying out simple curves.

Credit 3 5 0

C O U R S E IN C I V I L E N G I N E E R I N G

1 2 2 . Mechanics (403 and 4 6 0 ) Discussion of the fundamental principles of statics and their applications in the engineering fields; study of theory and typical problems involving standard units, sys- tems of concurrent and non-concurrent co-planar forces, trusses, friction, center of gravity, and moment of inertia. Credit 3

1 3 1 . Strength of Materials ( 1 2 2 ) A practical discussion of the stresses and deformations in materials which are sub-

jected to tension, compression and shear; study of elasticity, shear, riveted joints, torsion, theory of simple and continuous beams, theory of columns, combined stress and resilience. Credit 4

1 3 2 . Strength of Materials ( 1 2 2 ) Similar to 131, adapted to the requirements of the electrical engineer. Credit 3

M W F 4.

1 3 4 . Mechanics ( 1 2 2 ) Discussion of the fundamental principles of kinematics and kinetics. Study of motion,

force, mass, acceleration, work, energy, power, impulse, and momentum. Practical problems supplement the theory. Credit 3

1 3 5 . Mechanics ( 1 2 2 ) Similar to 134, adapted to the requirements of the electrical engineer. Special

emphasis upon rotation and upon the balancing of rotating parts of machinery. Credit 3 1 4 1 . Materials

Study of gypsum and lime plasters, brick, cement, concrete, timber, steel, and other materials used in construction; includes quarrying, mining, manufacture, properties, and use. Credit 2

1 4 5 . Materials Laboratory (Concurrent with 1 3 1 ) Study of Standard Specifications, and experimental determination by means of stand- ard tests, of strength and elastic properties of engineering materials: metals, cement, sand, stone, concrete, timber, and brick. Credit 2

1 4 6 . Laboratory ( 1 6 5 ) Standard tests on the various bituminous and non-bituminous materials used in con-

struction of highways and pavements. Credit 2 M W 5-6.

1 5 3 . Water Supply (152) Sources of water supply; drinking water and disease; natural purification; river and

stream water; lake and reservoir water; structures; basins and filters; sand filtration; mechanical filtration; aqueducts; collecting and distributing systems; dams, reservoirs, standpipes; pumping machinery; and water works design. Visit to municipal plants.

Credit 3

1 5 4 . Sanitary Engineering ( 1 5 2 ) Sewage; storm water; flow in pipes and conduits; separate and combined systems;

methods of disposal; design of sewerage systems and disposal works; sanitation of build- ings and parks; street cleaning, garbage, ash and trash collection; disposal of municipal wastes. Visit to municipal plants. Credit 3

N O R W I C H UNIVERSITY

161. Railroads ( 1 1 0 )

Track problems; vertical curves; spirals; turnouts, connecting tracks and crossings; yard location; maintenance of way, economics of location; train resistance; rolling stock; brakes; signals; yards and stations; pile and framed trestle; tunnels.

T Th S 2. Credit 3 165-6. Highways (110 and 1 4 1 )

The economic principle of road location, construction, maintenance, and cost; the construction and maintenance of road surfaces and pavements; highway economics; methods of financing, cost of construction and maintenance; inspection of road and pave- ment work; state highway systems; legal proceedings for improvement, condemnation, assessment of cost; forms of contracts; and reports. Credit 6

M W F 2.

171. Engineering Geology

Study of the earth's surface and its practical application to engineering problems. Includes study of petrology, rock-weathering, control of rivers, underground water, landslides, coastal protection, lakes and swamps, geology of dams and reservoirs, and ore deposits. Credit 3

M W F 1.

172. Foundations

An intimate study ol" general engineering foundations including piers, abutments, construction details of building foundations, and soil studies. Credit 3

T Th S 2.

173-4. Thesis

A report on original research or design Limited to cadets who have demonstrated a special

aptitude for work of this kind. Credit 6

181. Graphics (122) Force and equilibrium polygons, graphical analysis of force systems, equilibrium of

forces on beams and trusses, stress analysis of roof trusses, shear and moment diagrams, influence lines for simple beams and trusses. Credit 2

182. Theory of Structures (131 and 181) Analysis of trusses for dead and moving loads, influence lines, truss deflections, build- ings and frames. Credit 3

183-4. Structural Design (182) Simple trusses and plate girders including computation of stresses, design under

moving loads and specifications- Buildings. Credit 8

191-2. Concrete Design ( 1 4 5 and 1 8 2 ) Estimating volumes of concrete or masonry; computation of amount of cement, fine and coarse aggregate required for various concrete mixtures; design of concrete mixtures; design of rectangular beams, including stirrups and other diagonal tension reinforce- ment. Theory and design of reinforced concrete beams; floor slabs and footings; bills of materials and estimates. Complete design of a T-beam reinforced concrete highway bridge: design of retaining walls, dams, culverts, and reinforced concrete buildings. T 4. Th S 3-4. Credit 6

C O U R S E I N E L E C T R I C A L E N G I N E E R I N G

M A J O R S SPENCER and H O W E S

Major Spencer, Adviser

The Electrical Engineering curriculum is designed to provide instruction in the basic principles which constitute the ground work for the professional engineer in this field. Among the courses included in this curriculum are those pertaining to the generation, transmission and utilization of electric power; the design of various types of electrical equipment and systems; electronics; wire and radio communication systems. The economic aspects of engineering are constantly emphasized.

O U T L I N E OF C O U R S E FRESHMAN YEAR First Semester Algebra 453 ( 3 + 0 + 6 ) 3 Chemistry 3 (3 + 2 + 7 ) 4 Drawing 4 9 1 ( 0 + 6 + 0 ) 2 English 351 ( 3 + 0 + 6 ) 3 Analytic Geom. 4 5 5 . . . . ( 3 + 0 + 6 ) 3 Eng. Survey 201 ( 1 + 0 + 2 ) 1 Military 901 2 Semester Hours 18 Second Semester Calculus 4 6 0 ( 3 + 0 + 6 ) 3 Chemistry 4 ( 3 + 2 + 7 ) 4 Des. Geom. 494 ( 1 + 4 + 4 ) 3 Drawing 496 ( 0 + 6 + 0 ) 2 English 352 ( 3 + 0 + 6 ) 3 Eng. Survey 202 ( 1 + 0 + 2 ) 1 Military 902 2 Semester Hours 18 SOPHOMORE Y E A R Third Semester Calculus 4 6 1 ( 3 + 0 + 6 ) 3 English 353 ( 3 + 0 + 6 ) 3 Physics 403 ( 5 + 0 + 1 0 ) 5 Physics Lab. 413 ( 0 + 3 + 3 ) 2 Surveying 105 (2 + 3 + 4 ) 3 Military 903 2 Semester Hours 18 Fourth Semester Diff. Equations 462 ( 3 + 0 + 6 ) 3 English 360 ( 3 + 0 + 6 ) 3 Physics 404 (5 + 0 + 1 0 ) 5 Physics Lab. 414 ( 0 + 3 + 3 ) 2 Mechanics 122 ( 3 + 0 + 6 ) 3 El. and Mag. 204 ( 3 + 0 + 3 ) 2

Military 904 2 Semester Hours 20 TUNIOR Y E A R Fifth Semester A. C . 205 ( 3 + 0 + 6 ) 3 Am. Govt. 771 ( 3 + 0 + 6 ) 3 Direct Currents 207 ( 3 + 0 + 6 ) 3 E. E. Lab. 209 ( 0 + 3 + 3 ) 2 Mechanics 135 ( 3 + 0 + 6 ) 3 Heat Engr. 273 ( 3 + 0 + 6 ) 3 Military 905 2 Semester Hours 19 Sixth Semester A. C. 206 ( 3 + 0 + 6 ) 3 Electronics 220 ( 2 + 0 + 4 ) 2 E. E. Lab. 210 ( 0 + 3 + 3 ) 2 Economics 752 ( 3 + 0 + 6 ) 3 Str. of Mat. 132 ( 3 + 0 + 6 ) 3 Heat Engr. 274 ( 3 + 0 + 6 ) 3 Military 906 2 Semester Hours 18

N O R W I C H UNIVERSITY