Explanation Calculation: The formula to calculate the maximum equivalent power is given by, R max = V 2 P min Substitute 220 V for V and 300 W for P min in the above equation. R max = ( 220 V ) 2 300 W = 484 3 Ω The expression for the relation between the resistances of the heating coils is given by, R 1 + R 2 = R max Substitute 484 3 Ω for R max in the above equation. R 1 + R 2 = 484 3 Ω ...... (1) The formula to calculate the minimum equivalent resistance is given by, R min = V 2 P max Substitute 220 V for V and 2000 W for P max in the above equation. R min = ( 220 V ) 2 2000 W = 24.2 Ω The relation between the equivalent resistance and the minimum equivalent minimum resistance is given by, R min = R 1 R 2 R 1 + R 2 Substitute 24.2 Ω for R min and 484 3 Ω for R 1 + R 2 in the above equation

Principles and Applications of Electrical Engineering

6th Edition

ISBN: 9780073529592

Author: Giorgio Rizzoni Professor of Mechanical Engineering, James A. Kearns Dr.

Publisher: McGraw-Hill Education

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Electrical Heating Unit

The conversion of electrical energy to heat energy is known as electric heating. The heating system that converts the electrical energy to heat energy for various application is called electrical heating unit. Electricity is employed as the firing mechan…

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Chapter 2, Problem 2.41HP

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The resistance of each coil.

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Chapter 2, Problem 2.40HP

Chapter 2, Problem 2.42HP

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Chapter 2 Solutions

Principles and Applications of Electrical Engineering

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Ch. 2 - The charging scheme used in Figure P2.11 is...Ch. 2 - The charging scheme used in Figure P2.12 is...Ch. 2 - Use KCL to determine the unknown currents in the...Ch. 2 - Use KCL to find the current i1 and i2 in Figure...Ch. 2 - Use KCL to find the current i1,i2, and i3 in the...Ch. 2 - Use KVL to find the voltages v1,v2, and v3 in...Ch. 2 - Use KCL to determine the current i1,i2,i3, and i4...Ch. 2 - In the circuits of Figure P2.18, the directions...Ch. 2 - Find the power delivered by each source in Figure...Ch. 2 - Determine whether each element in Figure P2.20 is...Ch. 2 - In the circuit of Figure P2.21, determine the...Ch. 2 - For the circuit shown in Figure P2.22: a....Ch. 2 - For the circuit shown in Figure P2.23,...Ch. 2 - For the circuit shown in Figure P2.24, determine...Ch. 2 - For the circuit shown in Figure P2.25, determine...Ch. 2 - Prob. 2.26HP Ch. 2 - Prob. 2.27HP Ch. 2 - Prob. 2.28HP Ch. 2 - Prob. 2.29HP Ch. 2 - Prob. 2.30HP Ch. 2 - Prob. 2.31HP Ch. 2 - In the circuit of Figure P2.32, assume v2=vs/6 and...Ch. 2 - Prob. 2.33HP Ch. 2 - An incandescent light bulb rated at 100 W will...Ch. 2 - An incandescent lightbulb rated at 60 W...Ch. 2 - Refer to Figure P2.36, and assume that...Ch. 2 - Refer to Figure P2.37, and assume that...Ch. 2 - Refer to Figure P2.38, and assume...Ch. 2 - Prob. 2.39HP Ch. 2 - With no load attached, the voltage at the...Ch. 2 - Prob. 2.41HP Ch. 2 - For the circuits of Figure P2.42, determine the...Ch. 2 - At an engineering site, a 1-hp motor is placed...Ch. 2 - Cheap resistors are fabricated by depositing a...Ch. 2 - Prob. 2.45HP Ch. 2 - Use KCL and Ohm’s law to determine the current...Ch. 2 - Refer to Figure P2.13. Assume R0=1,R1=2,R2=3,R3=4...Ch. 2 - Apply KCL and Ohm’s law to find the power supplied...Ch. 2 - Refer to Figure P2.49 and assume...Ch. 2 - Refer to Figure P2.49 and assume...Ch. 2 - Prob. 2.51HP Ch. 2 - The voltage divider network of Figure P2.52 is...Ch. 2 - Find the equivalent resistance seen by the source...Ch. 2 - Find the equivalent resistance seen by the source...Ch. 2 - In the circuit of Figure P2.55, the power absorbed...Ch. 2 - Find the equivalent resistance between terminals...Ch. 2 - For the circuit shown in Figure P2.57, find the...Ch. 2 - For the circuit shown in Figure P2.58,find the...Ch. 2 - Refer to Figure P2.59. Assume...Ch. 2 - Find the equivalent resistance seen by the source...Ch. 2 - For the circuit shown in Figure P2.61. assume...Ch. 2 - Determine the equivalent resistance of the...Ch. 2 - For the circuit shown in Figure P2.58, assume...Ch. 2 - In the circuit of Figure P2.64, find the...Ch. 2 - Refer to Figure P2.64 and determine the equivalent...Ch. 2 - Find the equivalent resistance seen by the source...Ch. 2 - Determine the voltage vo between nodes A and Bin...Ch. 2 - Refer to Figure P2.68 and assume...Ch. 2 - Prob. 2.69HP Ch. 2 - Prob. 2.70HP Ch. 2 - Prob. 2.71HP Ch. 2 - The circuit of Figure P2.72 is used to measure the...Ch. 2 - Consider the practical ammeter, depicted in Figure...Ch. 2 - Prob. 2.74HP Ch. 2 - Prob. 2.75HP Ch. 2 - Prob. 2.76HP Ch. 2 - A voltmeter is used to determine the voltage...Ch. 2 - Prob. 2.78HP Ch. 2 - Figure P2.79 shows an aluminum cantilevered beam...Ch. 2 - Refer to Figure P2.79 but assume that the...

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The resistance of each coil.

Solution Summary: The author explains the values of the resistances of each heating coil. The formula to calculate the maximum equivalent power is given by, R_mathrmmax=V2

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