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Show • 90 — — 1. Intermediate Algebra. A course designed for the general student as well as for the science student. It deals with the fundamental algebraic operations, special products and factoring, fractions, first and second equations, graphs, logarithms, progressions, binomial theorem, and variation. Prerequisites: First course in algebra. Five quater hours. Autumn, Winter, Spring. Staff 2. Solid Geometry. A course dealing with lines, planes, dihedral and polyhedral angles, prisms, cylinders, pyramids, cones, spheres, spherical polygons, and general polyhedrons. Prerequisite: Plane Geometry. Three quarter hours. Winter, Spring. Staff 3. Trigonometry. A course in plane and spherical trigonometry designed primarily for mathematics, science, and engineering majors. It deals with the natural functions and their graphs, identities, functions of the sum of two angles and related formulas, logarithms, solutions of triangles, complex numbers, inverse functions, hyperbolic functions, equations, spherical triangles. Prerequisites: Second course in Algebra and plane and solid geometry. Five quarter hours. Winter, Spring. Staff 3a. Trigonometry. A course in plane trigonometry designed for general students, some engineers, and other non-mathematics majors. It includes the natural functions, their line values and graphs, identities, functions of the sum of two angles and related formulas, logarithms, solution of triangles, inverse functions. Prerequisite: First course in algebra and plane geometry. Credit will not be given for both Mathematics 3 and 3a. Three quarter hours. Spring. Staff 4. College Algebra. A course for mathematics, science and engineering majors which deals with a brief review of fundamental operations, quadractics, ratio and proportion, binomial theorem, progressions, mathematical induction inequalities, complex numbers, theory of equations, logarithms, determinants, partial fractions, infinite series, and selected topics. Prerequisites: Mathematics 1, and Plane Geometry. Five quarter hours. Autumn, Winter, Spring. Staff 5. Analytic Geometry. A course designed primarily for mathematics majors and for those science and engineering majors who desire a thorough and more complete course in Analytic Geometry. This course deals with plane analytic geometry; cartesian, and polar cooordinates, lines, curves and equations, conic sections transformation of coordinates. Prerequisites: Mathematics 3 and 4. Five quarter hours. Winter. (May not be given). Staff 6. Analytic Geometry. A continuation of Mathematics 5. It deals with plane and solid analytic geometry; polar coordinates, higher plane curves, tangents, normals, graphs, functions, empirical equations, three dimensional coordinates, surfaces and curves in space. Prerequisite: Mathematics 5. Five quarter hours. Spring. (May not be given). Staff 91 7. Calculus. A course in differential calculus designed primarily for mathematics, science, and engineering majors. It deals with functions, limits, differentiation of algebraic and transcendental functions, applications of differentiation, parametric and polar equations, differentials, and curvature. Prerequisites: Mathematics 2, 4, 5 and 6 or 10. Four quarter hours. Autumn. Stevenson, Terry 8. Calculus. A continuation of Mathematics 7. It deals with differential and integral calculus; successive differentiation and applications, methods of integration of algebraic and transcendental differentials, indefinite and definite integrals, areas and the applications, formal integration and reduction formulas. Prerequisite: Mathematics 7. Four quarter hours. Winter. Stevenson, Terry 9. Calculus. A continuation of Mathematics 8. It deals with integral calculus and differential equations; multiple integrals, centroids, moments, fluid pressure, and other applications, series, expansion of functions, and ordinary differential equations. Prerequisite: Mathematics 8. Four quarter hours. Spring. Stevenson, Terry 10. Analytic Geometry. A course designed for those who desire a brief one-quarter course to meet the prerequisite to calculus. It will not meet the requirements for mathematics majors. It deals with plane and solid analytic geometry: cartesian and polar coordinates, lines, conic sections, transcendental curves, rectangular, cylindrical and spherical coordinates in three dimensions; planes and quadric surfaces. Prerequisites : Mathematics 2, 3 and 4. Five quarter hours. Winter, Spring. Staff 51. Basic Mathematics. A course designed to furnish the student with sufficient mathematical background for the study of the basic courses in science, and to pursue more advanced mathematics. It also provides a thorough review for students who have forgotten much of the basic mathematics. It deals with the fundamental operations of arithmetic, algebra, linear equations, special products and factoring, algebraic fractions, fractional equations, simultaneous linear equations,' exponents and radicals, quadratic equations, graphical methods, and numerical trigonometry. Five quarter hours of terminal credit. Autumn Winter. Staff 52. Plane Geometry. A two-quarter course designed for those who need Plane Geometry. This course will be given provided sufficient students register for it. Five quarter hours terminal credit. Autumn, Winter. Staff 53. Plane Geometry. A continuation of Mathematics 52. Five quarter hours terminal credit. Winter, Spring. Staff 81. Applied Mathematics. A course which treats the fundamental processes of mathematics as used by trade and industry. Measurements common and decimal fractions, surfaces, volumes, capacities etc are given special consideration. Practical applications of algebra are in- eluded. Five quarter hours. Autumn, Winter, Spring. Alexander 82. Applied Geometry. A course dealing with the fundamentals of geometry as applied to carpentry, sheet metal, machine shop, etc Angles degrees, perpendiculars, construction, measuring, bisecting of angles and |
