118. Magnetic AmplifiersBasic magnetic circuit theory with applications to magnetic amplifiers used in amplification and control situations. Three lectures. S (3). Staff 121. Transducer LaboratoryOperation, control, and adjustment of electrical and mechanical devices used as transducers. Two laboratories. S (2). Staff 122. TransducersConversion of electrical energy for use in liquids, solids, and gases by means of electrical and mechanical devices. Three lectures. S (3). Staff 127. Electronics Equipment Maintenance Adjustment and maintenance of electronic equipment such as test equipment and electronic equipment used in industrial applications. Two or three laboratories. A (2 or 3). Staff 128. Electronic Equipment CircuitsProcedures used in maintenance of industrial type electronic instruments and fixtures. Two or three lectures. Prerequisites: Electronics 76, or equivalent. A (2 or 3). Staff 131. Radar Fundamental LaboratoryTesting and operation of basic circuits studied in Electronics 132. One or two laboratories. A (1 or 2). Staff 132. Radar Fundamentals Theory of circuits used in radar and television; concepts dealing with non-sinusoidal waves and transients, R-C, and R-L time constants, gas tubes, electronic reflectors, voltage doublers, and regulators, video-amplifiers, R-C oscillators, and cathode followers. Prerequisite: Electronics 52 or 72 or equivalent. Three or five lectures. A (3 or 5). Staff 133. Radar Systems LaboratoryTesting and operation of basic circuits and subassemblies of radar systems. One or two laboratories. W (1 or 2). Staff 134. Radar SystemsTheory of vacuum tube R-C and R-L circuits used as limiters, clampers, peakers, sawtooth generators, multivibrators, and counters; also, cathode ray tubes, transmission lines, wave guides, cavity resonators, and ultrahigh frequency generators. Prerequisite: Electronics 132 or equivalent. Three or five lectures. W (3 or 5). Staff 300 138. Missile Guidance Systems Electronics principles, circuitry, and operation concepts used in missile guidance systems. Prerequisite: Electronics 6, Physics 41 or equivalent. Three or five lectures. W (3 or 5). Staff 141. Fundamentals of ElectronicsFor the technical student not majoring in electronics. Electronic concepts relating to voltage, current, power, resistance, inductance and capacitance in direct current circuits. Two lecture-recitations and one laboratory period a week. Prerequisite: Technical Mathematics 5 or equivalent. A (3). Staff 142. Fundamental of ElectronicsFor the technical student not majoring in electronics. Electronic concepts relating to resistance, inductance, and capacitance as single components and as combinations in alternating current circuits. Two lecture-recitations and one laboratory period a week. Prerequisite: Electronics 141 or equivalent. W (3). Staff 143. Fundamentals of Electronics For the technical student not majoring in electronics. Transistor and vacuum tube principles and fundamental circuits. Industrial applications stressed. Two lecture-recitations and one laboratory period a week. Prerequisite: Electronics 142 or equivalent. S (3). Staff 145. FCC License Examination StudyMaterial covered in the Federal Communications Commission 2nd class commercial license examination. Two lectures. Prerequisite: Electronics 52, or equivalent. A (2). Staff 146. FCC License Examination StudyMaterial covered in the Federal Communications Commission 1st class commercial license examination. Two lectures. Prerequisite: Electronics 52 or equivalent. W (2). Staff 151. Line and Networks LaboratoryExperiments in line and network principles. Two laboratories. A (2). Staff 152. Theory of lines and networksTransmission line and filter network theory and configurations. Three lectures. A (3). Staff 161. Wave Propagation LaboratoryAdjustments, operation, and measurements of transmission lines and radiating devices. Three laboratories. A (2). Staff 301