To convert a moving coil galvanometer into an ammeter we need to … - Vidyadip

MCQ

To convert a moving coil galvanometer into an ammeter we need to connect a ______.

A
small resistance in parallel with it
B
large resistance in series with it
C
small resistance in series with it
D
large resistance in parallel with it

✓

Answer

To convert a moving coil galvanometer into an ammeter we need to connect a small resistance in parallel with it.

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "M.C.Q (1 Marks)" from MARCH 2024→MARCH 2024 — all question types→Physics STD 12 Science question papers→Maharashtra Board STD 12 Science question papers→Maharashtra Board question paper generator→

Similar questions

Which of the following cannot produce two coherent sources?

A small metal ball of mass $m$ is dropped in a liquid contained in a vessel, attains a terminal velocity $v$. If a metal ball of same material but of mass $8 m$ is dropped in same liquid then the terminal velocity will be

A toroid with a circular cross section has a current $I$ in its windings. The total number of windings is $N$. The total current through an Amperian loop of radius $r$ equal to the mean radius of the toroid is

The closed and open pipes have same length. When they are vibrating simultaneously in first overtone, produce three beats. The length of open pipe is made $\frac{1}{3}^{\text {rd }}$ and closed pipe is made three times the original, the number of beats produced will be

In the circuit shown, a four-wire potentiometer is made of a $400 cm$ long wire, which extends between $A$ and $B$. The resistance per unit length of the potentiometer wire is $r=0.01 \Omega / cm$. If an ideal voltmeter is connected as shown with jockey $J$ at $50 cm$ from end $A$, the expected reading of the voltmeter will be

→

The molar specific heat of an ideal gas at constant pressure and constant volume is ' $C_P$ ' and ' $C_Y$ 'respectively. If ' $R$ ' is the universal gas constant and the ratio of ' $C_P$ ' to ' $C_\gamma$ ' is ' $\gamma$ ' then ' $C_Y$ ' is equal to

If for a liquid in a vessel, the force of cohesion is more than the force of adhesion,

A very long solenoid has 8400 windings and a length of $7 m$. If the field inside is $2 ir x$ iO T, the current in the windings is about $\left[\mu_0 / 4 \pi=10^{-7} T \cdot m / A \right]$

In the logic circuit diagram, $A, B$ and $C$ are the inputs, $Y$ is the output. The output $Y$ is 'HIGH'

When an electron jumps from a higher energy orbit to a lower energy orbit, the difference in the energies in the two orbits is radiated as quantum (photon) of