(B) The power $P$ dissipated in a resistor is given by the formula $P = \frac{V^2}{R}$,where $V$ is the potential difference and $R$ is the resistance

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(B) The power $P$ dissipated in a resistor is given by the formula $P = \frac{V^2}{R}$,where $V$ is the potential difference and $R$ is the resistance.Given:Potential difference $V = 120 \text{ V}$Resistance $R = 100 \Omega$Substituting the values into the formula:$P = \frac{(120)^2}{100}$$P = \frac{14400}{100}$$P = 144 \text{ W}$Therefore,the power dissipated is $144 \text{ W}$.

Class 12 Physics Current Electricity Electrical Energy and Power

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The power dissipated by a uniform wire of resistance $100 \Omega$ when a potential difference of $120 \text{ V}$ is applied across its ends is (in $W$)

AP EAMCET 2025 All AP EAMCET

A
$122$
B
$144$
C
$160$
D
$200$

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The power dissipated by a uniform wire of resistance $100 \Omega$ when a potential difference of $120 \text{ V}$ is applied across its ends is (in $W$)

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