535·151 Classroom Television Production· 3 Cr. - Techniques and procedures in the fo llowing : sbund , lighting, video taping procedures, dubbing and editing tapes. Lecture 1 hour. Laboratory 4 hours. Prerequisite: None. 535·152 Studio Television Procedures· 3 Cr. - Techniques and procedures in the following: sound, lighting, video taping procedures, dubbing and editing tapes. Lecture 1 hour. Laboratory 4 hours. Prerequisite: None. 535·172 Movie Photography . 3 Cr. Techniques and procedures in the following: color, black and white cinematography, amm, 16mm and story board. Lecture 1 hour. Laboratory 4 hours. Prerequisite : 616·113 Photography or equivalent. 535·201 Sound Media· 3 Cr. - Operating record equipment and public address systems. Reproduction of sound materials. ,Operation of multi·media equipment. Lec· ture 1 hour, Laboratory 4 hours. Prerequisite : 535·101 Introduction to Educational Media or equivalent. 535·251 Internship· 4 Cr. - Field experi· ence in media setting, Lecture 2 hours. Laboratory 6 hours, Prerequisite: 21 quarter hours completed in Educational Media.
Electrical-Electronic Engineering Technology 540 540·125 Electric Circuits· 3 Cr. - Direct current circuit fundamentals with emphasis on electron theory of current flow, electrical quantities and their units of measurement, sources of EMF, Ohm's law, electrical energy and power relationships, Series, parallel and series·parallel circuits, voltage dividers. Kirchhoff's laws, Thevenin's and Norton's theorems. Practical laboratory ex· perience in the construction of working cir· cuits and the evaluation of their performance Lecture 2 hours. Laboratory 2 hours. Prerequisite: None. 540·126 Electric Circuits· 3 Cr. Fundamentals of alternatin~ current circuits with emphasis on capacitance, inductance, sinusoidal voltage and current, reactance, vectors and phasors, impedance. Practical laboratory experience with A.C. instruments including oscilloscopes, capacitance testing and the evaluation of reactive circuits. Lecture 2 hours. Laboratory 2 hours . Prerequisite: 540-125 Electric Circuits and 690-101 Algebra. 540·127 Electric Circuits· 3 Cr. - Continuation of 540-126 Electric Circuits. Emphasis on power, resonance, coupled circuits, transformer action and harmonics. Practical laboratory experience with various combinations of series and parallel reactive circuits, resonant circuits and transformers. Lecture 2 hours. Laboratory 2 hours. 74
Prerequisites: 540-126 Electric Circuits and 690-105 Trigonometry. 540·140 Direct Current Machines· 3 Cr. Direct current generator-motor principles and construction. Includes single phase A.C. motors. Efficiency, rating and application of dynamos. Voltage, current, excitation, torque, speed and speed regulation, armature reaction and power losses. Rotating amplifiers and D.C. machines for automation. Practica l laboratory experience with electrical machines. Lecture 2 hours. Laboratory 2 hours. Prerequisites: 540-125 Electric Circuits and 690-101 Algebra. 540·150 Alternating Current Machines - 3 Cr. - Theory of alternating current machinery, Construction, characteristics and operation of induction, synchronous motors, synchronous generators, converters and transformers, both single and polyphase, Practical laboratory experience with machinery. Lecture 2 hours. Laboratory 2 hours, Prerequisites: 540-127 Electric Circuits and 540-140 Direct Current Machines or concurrent enrollment. 540·160 Semiconductor and Electronic Cir· cuits . 3 Cr. - Fundamentals of vacuum tubes and semiconductors. Circuit applications including rectifier and basic power supply circuits as well as filter networks. Vacuum triode characteristics. Practical laboratory experience with circuits involving semiconductors, zener, tunnel and vacuum diodes. Lecture 2 hours. Laboratory 2 hours. Prerequisite: 540-127 Electric Circuits or concurrent enrollment. 5~0·2~ 1 Electrical C?onstruction and Ap· plication· 2 Cr. - WIring systems for light, heat and power. Transmission and distribution systems; switches, contactors, relays and circuit breakers, Wire, cable and conduit applications. Feeder and branch circuit protection. Safety and ground ing practices. Lighting systems and design , Electric heating design. Demonstrat ions will be used to familiarize students with equipment. Lecture 2 hours. Laboratory 0 hours. Prerequisite: 540-150 Altern ati ng Current Machines. 540·235 Commuinication Transmission . 3 Cr. - Fundamentals of A.M. rad io transmission and receiving . Emphasis on tuned and coupled ciucuits, R.F. amplifiers and oscillators, modulation and demodulation of A.M, waves , A.M. receiver circu it ry, Practical labortory experience with audio components and circuits as well as the con struction and alignment of a superheterodyne receiver. Lecture 2 hours. Laboratory 2 hours . Prerequisite: 540-260 Semi-conductor and Electronic Circuits. 540·236 Communication Transmission . 3 Cr. Continuation of 540-235 Communication Transmission. Emphasis on frequency modulation, transmission lines, antennas and propagation, telephone transmission , advanced radio transmission and receiving systems. Laboratory experience with radio and telephone equipment. Lec-