Home
Class 11
PHYSICS
Inductance L can be dimensional represen...

Inductance L can be dimensional represented as

A

`ML^(2) T^(-2)A^(-2)`

B

`ML^(2)T^(-4) A^(-3)`

C

`ML^(-2)T^(-2) A^(-2)`

D

`ML^(2)T^(4) A^(3)`

Text Solution

Verified by Experts

The correct Answer is:
A
`e=L(di)/(dt)implies L =([ML^(2)T^(-3)A^(-1)][T])/([A])`
`=[ML^(2) T^(-2)A^(-2)]`
Aliter:
Energy `=1/2 Li^2`
`implies [L] =[ML^(2) T^(-2)A^(-2)]`
Promotional Banner

Similar Questions

Explore conceptually related problems

Suppose a quantilty x can be dimensionally represented in terms of M,L and T, that is [x], M^aL^bT^c . The quantity mass

A physical quantity x can dimensionally represented in terms of M, L and T that is x=M^(a) L^(b) T^(c) . The quantity time-

The dimensional formula for inductance is

Self inductance of a soleniod can be increased by

If L,C and R denote the inductance, capacitance and resistance respectively, the dimensional formula for C^(2)LR is

If L,C and R represent inductance, capacitance and resistance respectively, then which of the following does not represent dimensions of frequency

L,C and R represent the physical quantities inductance, capacitance and resistance respectively. Which of the following combinations have dimensions of frequency?

L, C and R represent the physical quantities inductance, capacitance and resistance respectively. The combinations which have the dimensions of frequency are-

L, C and R represent the physical quantities, inductance, capacitance and resistance respectively. The combination(s) which have the dimensions of frequency are