Given: We must check the correctness of statements A to E for a moving coil galvanometer.
Find: Which set of statements is correct.
For a moving coil galvanometer, current sensitivity is
Iθ=kNBA
and voltage sensitivity is
Vθ=Iθ⋅VI=kRNBA
where N is the number of turns, B is magnetic field, A is coil area, k is torsional constant, and R is galvanometer resistance.
Statement A: The torsional constant is torque per unit angular displacement. Since angular displacement is dimensionless, its dimensions are the same as torque:
[ML2T−2]
So A is correct.
Statement B: Voltage sensitivity depends on both current sensitivity and resistance:
Vθ=R1Iθ
Therefore, increasing current sensitivity does not always increase voltage sensitivity because R can also change. So B is correct.
Statement C: If N is doubled, then current sensitivity doubles because
Iθ=kNBA
but resistance also increases with the number of turns. Hence voltage sensitivity
Vθ=kRNBA
does not necessarily double; it can remain unchanged. So C is incorrect.
Statement D: To convert a galvanometer into an ammeter, a low-value shunt resistance is connected in parallel so that most of the current bypasses the galvanometer. Therefore the statement saying large value shunt is used is false. So D is incorrect.
Statement E: From
Iθ=kNBA
current sensitivity is directly proportional to N, not inversely proportional to N. So E is incorrect.
Therefore, only statements A and B are correct. The correct option is A.