For the following circuit 1. Calculate the power absorbed or delivered by each of the circuit elements 2. For the elements A and B, determine which is an active component and which is a passive component?
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- A copper coil has a resistance of 200 ohms when its mean temperature is 0 degree centigrade. Calculate the resistance of the coil when its mean temperature is 80 degree centigrade. Temperature coefficient of copper is 0.004041 centigrade-1a) 264.65 ohmb) 264.65 kilo-ohmc) 286.65 ohmd) 286.65 kilo-ohmHEAT TRANSFER : INDUCTION COIL I want to know what temperature the stainless steel cylinder will have inside. It's a heat transfer problem. current: 31 A voltage 42V cylinder material: stainless steel Outer radius: 0.55 Inner Radius :0.7 Thermal conductivity: 15w/mk Induction coil measurement: It has 1/8” OD and 0.03” wall thickness and will wrap around the cylinder and will have the same height as the cylinder. I want to know temperature of the cylinder RiState which of the following statements are true and which are false. Give reasons for youranswers.a) A very simple circuit consists of a battery connected across a resistor. In this circuit, thebattery and the resistor are both in series and also in parallel.b) A resistor R and a capacitor C connected in series combine as 1RC =1R +1Cc) Natural uranium is not radioactive until it has been processed by enrichment for use infission reactors or bombs.d) Infrared light is more likely to cause electrons to be emitted from a metal than ultravioletlight.e) Special and General Relativity effects both matter for the operation of GPS, the former slowing down the clocks on GPS satellites relative to clocks on Earth and the latter speedingthem up.
- A copper conductor (wire) used in a 30 amp common household circuit has a resistance of 1.73 Ω/1000 ft. The total conductor length is 95 ft. Determine the power loss in the conductors, when the circuit is fully loadedGiven a series circuit comprised of the following element: 77.03-ohm resistor, practical inductor with internal resistance of 0.16 ohm and reactance of 74.36 ohms; and a capacitor with reactance of 12.45 ohms. Compute for the magnitude of its equivalent impedance in ohms. Note: Follow this reminder carefully. Compute to the nearest 4 decimal places. No Scientific notation. Do not round off in the middle of calculation. Use stored values.Select the correct answer for each of the following statements Book Source: Electricity 3 | 10th Edition ISBN-13:9781111646738 ISBN:1111646732 Authors:Jeffrey J. Keljik
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