4. Applied AlgebraAids to mathematical solutions such as powers of ten, slide rule nomograms; special products, factoring, fractions, linear equations, simultaneous linear equations, quadratic equations, determinants of 2nd and 3rd degree, radicals and exponents, vectors, vector algebra, complex numbers. Prerequisite: Technical Mathematics 3 or equivalent. Five lectures. AWS (5). Staff 5. Applied TrigonometryAngles, natural functions and their graphs, identities, functions of two angles and related formulas, logarithms, solutions of triangles, complex numbers, inverse functions. Prerequisite: Technical Mathematics 3 or equivalent. Five lectures. WS(5). Staff 6. Applied Analytical GeometryFunctional notation and equations, cartesian coordinates, polar coordinates, straight line, circle, parabola, ellipse, graphing equations, theory of equations, partial fractions, and practical applications. Prerequisite: Technical Mathematics 4 or equivalent. Five lectures. S (5). Staff 110. Mathematics for Electronics Introduction to mathe-matic concepts used with basic computer circuits. Additional studies in algebra, trigonometry, and analytical geometry. Prerequisite Tech. .Math 6 or equivalent. Three lectures. A (3). Staff 141. Calculus for ElectronicsConcepts and applications in differentiation and integration as used in electronics. Prerequisite: Technical Mathematics 6 or Mathematics 34. Three lectures. A (3). Staff 142. Calculus for ElectronicsContinuation of Technical Mathematics 141. Three lectures. W (3). Staff 143. Calculus for ElectronicsContinuation of Technical Mathematics 142. Three lectures. S (3). Staff 175. Advanced Mathematics for Electronics Concepts and applications of mathematics for advanced electronics students. Prerequisite: Technical Mathematics 143, or equivalent. Three lectures. A (3). Staff 176. Advanced Mathematics for Electronics Continuation of Technical Mathematics 175. Three lectures. W (3). Stafl 326 177. Advanced Mathematics for Electronics Continuation of Technical Mathematics 176. Three lectures. S (3). Staff Department of Vocational Agriculture Instructor Allen Stephens This program is designed to meet the needs of the young farmer who is attempting to establish himself in the business of farming and who desires aid in acquiring skills and understanding which will help him to make satisfactory progress in farming. During the summer, spring, and autumn, instruction is given at the individual farm of the young farmer. The practical farm work is thus coordinated with laboratory and classroom studies. Special farm visits are part of the total program. A Master Farmer Certificate is offered to those who qualify. The candidate for this certificate shall (1) be regularly-registered in the Young Farmer Program in Vocational Agriculture; (2) have completed at least 6 credit hours of class instruction each year for five years, with not more than 15 credit hours in Farm Mechanics, and (3) have completed any additional requirements prescribed by the advisory and curriculum committees. In addition to the specific classes offered, the young farmer organization conducts monthly meetings at which programs of current interest in agriculture will be presented. Courses of Instruction 1. Farm WoodworkUse of power equipment in building furniture, feeders, coops, hog houses, gates, doors. Two laboratories. A (2). Staff 2. Farm Building Construction In cooperation with farmer advisory groups, the farmers solve building problems. Two laboratories. AS (2). Staff 3. Farm Building Cost Estimating Modern farm structures and conveniences; estimating costs with respect to building materials. One lecture and one laboratory. A (2). Stephens 5. Farm Machine Construction Designed to meet the needs of the young farmer in the building of accessory farm equipment, such as hay bale elevators, field bale loaders, utility trailers. Two laboratories. AWS (2). Stephens 327