(D) Current sensitivity $I_{s} = \frac{NBA}{k}$.Voltage sensitivity $V_{s} = \frac{I_{s}}{R} = \frac{NBA}{kR}$.Given $k_{1} = k_{2} = k$.Ratio of curr

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(D) Current sensitivity $I_{s} = \frac{NBA}{k}$.Voltage sensitivity $V_{s} = \frac{I_{s}}{R} = \frac{NBA}{kR}$.Given $k_{1} = k_{2} = k$.Ratio of current sensitivity $\frac{I_{s2}}{I_{s1}} = \frac{N_{2}B_{2}A_{2}}{N_{1}B_{1}A_{1}} = \frac{42 \times 0.50 \times 1.8 \times 10^{-2}}{30 \times 0.25 \times 3.6 \times 10^{-3}} = \frac{21 \times 1.8 \times 10^{-2}}{7.5 \times 3.6 \times 10^{-3}} = \frac{37.8 \times 10^{-2}}{27 \times 10^{-3}} = 1.4$.Ratio of voltage sensitivity $\frac{V_{s2}}{V_{s1}} = \frac{I_{s2}}{I_{s1}} \times \frac{R_{1}}{R_{2}} = 1.4 \times \frac{10}{14} = 1.4 \times \frac{1}{1.4} = 1$.Thus,the ratio is $1.4: 1$ and $1: 1$.

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

Medium

Moving coil galvanometers $M_{1}$ and $M_{2}$ have resistance,number of turns,area of coil,and magnetic field as follows:
$R_{1}=10 \Omega, R_{2}=14 \Omega, N_{1}=30, N_{2}=42$
$A_{1}=3.6 \times 10^{-3} \ m^{2}, A_{2}=1.8 \times 10^{-2} \ m^{2}, B_{1}=0.25 \ T, B_{2}=0.50 \ T$
(Spring constants are same for both galvanometers).
The ratio of $(i)$ current sensitivity and (ii) voltage sensitivity for galvanometer ($M_{2}$ to $M_{1}$) is respectively:

MHT CET 2020 All MHT CET

A
$1: 1, 1.4: 1$
B
$1: 1.4, 1: 1$
C
$4: 1, 1: 1$
D
$1.4: 1, 1: 1$

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Moving Charges and Magnetism

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

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