(D) In the half-deflection method,the resistance of the galvanometer $G$ is given by the formula:$G = \frac{RS}{R - S}$For the first observation:$G_1

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(D) In the half-deflection method,the resistance of the galvanometer $G$ is given by the formula:$G = \frac{RS}{R - S}$For the first observation:$G_1 = \frac{3300 \times 80}{3300 - 80} = \frac{264000}{3220} \approx 81.98 \ \Omega \approx 82 \ \Omega$For the second observation:$G_2 = \frac{5000 \times 80}{5000 - 80} = \frac{400000}{4920} \approx 81.30 \ \Omega \approx 81 \ \Omega$The average value of the galvanometer resistance is:$G = \frac{G_1 + G_2}{2} = \frac{82 + 81}{2} = 81.5 \ \Omega$Comparing this with the given options,the value is closest to $80 \ \Omega$.

Class 12 Physics Moving Charges and Magnetism The Moving Coil Galvanometer (Sensitivity) and Ammeter and Voltmeter Conversion

Difficult

To find the resistance of a galvanometer by the half-deflection method,the experimental data obtained are given in the table below:
$S. No.$ Resistance $R \ (\Omega)$ Deflection $(\theta)$ Shunt $S \ (\Omega)$ Half deflection $(\theta / 2)$ Galvanometer resistance $(G)$
$1$ $3300$ $30$ $80$ $15$ $G_1$
$2$ $5000$ $20$ $80$ $10$ $G_2$

From the above data,the galvanometer resistance $G$ will be near to: (in $\Omega$)

A
$20$
B
$40$
C
$50$
D
$80$

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Class 12

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Moving Charges and Magnetism

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The Moving Coil Galvanometer (Sensitivity) and Ammeter and Voltmeter Conversion

If only $2 \%$ of the main current is to be passed through a galvanometer of resistance $G$,then the resistance of the shunt connected to it will be:

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The scale of a galvanometer is divided into $25$ equal divisions. The resistance of the galvanometer is $100 \,\Omega$. The current sensitivity of the galvanometer is $4 \times 10^{-4} \,A/div$. What resistance in $ohm$ must be connected in series to measure $2.5 \,V$?

Medium

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The resistance of a galvanometer is $50\, \Omega$ and the maximum current which can be passed through it is $0.002\, A$. What resistance must be connected to it in order to convert it into an ammeter of range $0 - 0.5\, A$?

MediumJEE MAIN 2019

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With a resistance $X$ connected in series with a galvanometer of resistance $100 \Omega$,it acts as a voltmeter of range $0-15 \ V$. To double the range,a resistance of $1500 \Omega$ is to be connected in series with $X$. The value of $X$ in ohm is:

MediumMHT CET 2025

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Two identical galvanometers are converted into a voltmeter and a millivoltmeter. As compared to the series resistance of the voltmeter,the series resistance of the millivoltmeter will be

EasyMHT CET 2024

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$S. No.$	Resistance $R \ (\Omega)$	Deflection $(\theta)$	Shunt $S \ (\Omega)$	Half deflection $(\theta / 2)$	Galvanometer resistance $(G)$
$1$	$3300$	$30$	$80$	$15$	$G_1$
$2$	$5000$	$20$	$80$	$10$	$G_2$

Similar Questions

If only $2 \%$ of the main current is to be passed through a galvanometer of resistance $G$,then the resistance of the shunt connected to it will be:

The scale of a galvanometer is divided into $25$ equal divisions. The resistance of the galvanometer is $100 \,\Omega$. The current sensitivity of the galvanometer is $4 \times 10^{-4} \,A/div$. What resistance in $ohm$ must be connected in series to measure $2.5 \,V$?

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