Explanation Given info: The equivalent resistance of the two resistance when connected in parallel is 150 Ω and when connected in series the equivalent resistance is 690 Ω . Consider R 1 and R 2 as two resistance. The formula to calculate the series resistance is, R s = R 1 + R 2 Substitute 690 Ω for R s in the above equation. 690 Ω = R 1 + R 2 R 2 = 690 Ω − R 1 (1) The formula to calculate the equivalent parallel resistor is, 1 R p = 1 R 1 + 1 R 2 Substitute 690 Ω − R 1 for R 2 and 150 Ω for R p in the above equation

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ISBN: 9780100461260

Author: SERWAY

Publisher: YUZU

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Temperature Variance of Resistance

Electrical resistance or simply resistance is the property of a material that opposes the free flow of electrons through it. The total amount of resistance to the flow of charges (or current) is affected by many factors like the length of the conducting …

Question

Chapter 28, Problem 28.15P

To determine

The resistance of each of the resistors.

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Chapter 28, Problem 28.14P

Chapter 28, Problem 28.16P

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Chapter 28 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

Ch. 28 - To maximize the percentage of the power from the...Ch. 28 - With the switch in the circuit of Figure 27.4a...Ch. 28 - With the switch in the circuit of Figure 27.6a...Ch. 28 - Prob. 28.4QQ Ch. 28 - Consider the circuit in Figure 27.17 and assume...Ch. 28 - Is a circuit breaker wired (a) in series with the...Ch. 28 - A battery has some internal resistance. (i) Clan...Ch. 28 - The terminals of a battery are connected across...Ch. 28 - When operating on a 120-V circuit, an electric...Ch. 28 - If the terminals of a battery with zero internal...

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The resistance of each of the resistors.

Solution Summary: The author explains the resistance of each of the resistors, and the formula to calculate the series resistance.

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The resistance of each of the resistors.

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Chapter 28 Solutions