Current Electricity 5 Question 2

2. The Wheatstone bridge shown in figure here, gets balanced when the carbon resistor is used as $R _1$ has the color code (orange, red, brown). The resistors $R _2$ and $R _4$ are $80 \Omega$ and 40 $\Omega$, respectively.

Assuming that the color code for the carbon resistors gives their accurate values, the color code for the carbon resistor is used as $R _3$ would be

(2019 Main, 10 Jan II)

(a) brown, blue, black

(b) brown, blue, brown

(c) grey, black, brown

(d) red, green, brown

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Solution:

  1. The value of $R _1$ (orange, red, brown)

$$ \Rightarrow \quad=32 \times 10=320 \Omega $$

Given, $R _2=80 \Omega$ and $R _4=40 \Omega$

In balanced Wheatstone bridge condition,

$$ \begin{array}{rlrl} & & \frac{R _1}{R _2}=\frac{R _3}{R _4} \Rightarrow \quad R _3=R _4 \times \frac{R _1}{R _2} \\ \Rightarrow & R _3=\frac{40 \times 320}{80} \\ \text { or } & R _3=160 \Omega=16 \times 10^{1} \end{array} $$

Comparing the value of $R _3$ with the colours assigned for the carbon resistor, we get

$$ \begin{aligned} & R _3=16 \times 10^{1} \\ & \nearrow \uparrow \uparrow \uparrow \uparrow _{\text {Brown Blue Brown }} \end{aligned} $$



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