102. Instruments and MeasurementsBasic circuitry and operation of electronic instrumentation devices. Three lectures. A (3). Staff 105. High Frequency Measurements Laboratory High and ultra high frequency signals generated for tests and measurements by the instruments and circuits studied in Electronics 106. Two laboratories. W (2). Staff 106. High Frequency Measurements Theory and operation of instruments for measuring high and ultra high frequency signals. Three lectures. W (3). Staff 111. Telemetric Laboratory Experimental Loops established for the student to become acquainted with telemetric operation. Two laboratories. S (2). Staff 112. Telemetric Principles Methods and principles used in various types of systems to transfer measurements by wire and wireless. Three lectures. S (3). Staff 113. Servomechanisms LaboratoryOperation and adjustment of closed loop control systems. Two laboratories. W (2). Staff 114. ServomechanismsIntroductory theory and analysis of linear closed-loop control systems including electronic, electro-magnetic, and mechanical. Three lectures. W (3). Staff 117. Magnetic Amplifier LaboratoryOperation and adjustment of magnetic amplifier and control devices and circuits. Two laboratories. S (2). Staff 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 266 131. Radar Fundamental LaboratoryTesting and operation of basic circuits studied in Electronics 132. One to three laboratories. A (1-3). 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 to five lectures. A (3-5). Staff 133. Radar Systems LaboratoryTesting and operation of basic circuits and subassemblies of radar systems. One to three laboratories. W (1-3). 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 to five lectures. W (3-5). Staff 138. Missile Guidance Systems Electronics principles, circuitry, and operation concepts used in missile guidance systems. Prerequisite: Electronics 6, Physics 41 or equivalent. One to five lectures. W (1-5). 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 153. Communications Circuits Laboratory Adjustments and operation of radio communications circuits. Two laboratories. W (2). Staff 154. Communications Circuits (Radio)Circuits used primarily in AM and FM, radio communications; generation of fundamental signal and modifications in a system operation. Three lectures. W (3). Staff 155. Communications Circuits Laboratory Adjustment and operation of circuits employed in television communications. Two laboratories. S (2). Staff 267