A uniform metallic wire of length L is mounted in two configurations. In configuration 1 (triangle), it is an equilateral triangle and a voltage V

Q: A uniform metallic wire of length $L$ is mounted in two configurations. In configuration $1$ (triangle), it is an equilateral triangle and a voltage $V$ is applied to corners $A$ and $B$. In configuration $2$ (circle), it is bent in the form of a circle and the potential $V$ is applied at diametrically opposite points $P$ and $Q$. The ratio of the power dissipated in configuration $1$ to configuration $2$ is

b (b) Let $a=$ side length of equilateral triangle, $r=$ radius of circle and $x=$ resistance per unit length of wire used. Then, $L=3 a=2 \pi r$ or $a=\frac{L}{3}$ and $r=\frac{L}{2 \pi}$ Now, Equivalent resistance across $A B$ is $R_{A B}=(a x \| 2 a x)=\frac{a x \times 2 a x}{a x+2 a x}$ $=\frac{2 a^2 x^2}{3 a x}=\frac{2}{3} a x$ $\Rightarrow \quad R_{A B}=\frac{2}{3} \times \frac{L}{3} \times x$ Power dissipated is $P_1=\frac{V^2}{R_{A B}}=\frac{9 V^2}{2 L x} \quad \dots(i)$ $R_{P Q}=(\pi r x \| \pi r x)=\frac{\pi r x \times \pi r x}{\pi r x+\pi r x}=\frac{\pi^2 r^2 x^2}{2 \pi r x}$ $=\frac{1}{2} \pi r x=\frac{1}{2} \pi \times \frac{L}{2 \pi} x=\frac{L x}{4}$ So, power dissipated is $P_2=\frac{V^2}{R_{P Q}}=\frac{4 V^2}{L x}$ Ratio of power dissipated in two cases is $\frac{P_1}{P_2}=\frac{9 V^2 / 2 L x}{4 V^2 / L x}=\frac{9}{8}$

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

A uniform metallic wire of length $L$ is mounted in two configurations. In configuration $1$ (triangle), it is an equilateral triangle and a voltage $V$ is applied to corners $A$ and $B$. In configuration $2$ (circle), it is bent in the form of a circle and the potential $V$ is applied at diametrically opposite points $P$ and $Q$. The ratio of the power dissipated in configuration $1$ to configuration $2$ is

A$2 / 3$
B$9 / 8$
C$5 / 4$
D$7 / 8$

KVPY 2017, Advanced

STD 11 Science
JEE
STD 12 - 3. current electricity
Physics

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