In terms of basic units of mass (M), length (L), time (T), and charge (Q), the dimensions of magnetic permeability of vacuum `(mu_0)` would be

Using mass (M), length (L), time (T) and current (A) as fundamental quantities, the dimensions of permeability are :

The unit of permeability of vacuum (mu_(0)) is _______ .

Using mass (M), "length"(L) , time (T) and current (A) as fundamental quantites the demension of permeability is

Using mass (M), length (L), time (T) and current (A) as fundamental quantities, the dimension of permittivity is:

The dimensions of voltage in terms of mass (M), length (L) and time (T) and ampere (A) are

If the velocity (V) , acceleration (A) , and force (F) are taken as fundamental quantities instead of mass (M) , length (L) , and time (T) , the dimensions of young's modulus (Y) would be

Using mass (M) , length (L) , time (T) , and electric current (A) as fundamental quantities , the dimensions of permitivity will be

Find the dimensions of resistance in terms of mass, length, time and current.

Match the physical quantities given on column I with dimensions expressed in terms of mass (M) length (L) time (T), and charge (Q) given in column II and write the correct answer against the matched quantity in a tabular form in your answer book. {:("Column-I",,"Column-II"),("Angular momentum",,[ML^(2)T^(-2)]),("Latent heat",,[ML^(2)Q^(-2)]),("Torque",,[ML^(2)T^(-1)]),("Capacitance",,[ML^(3)T^(-1)Q^(-2)]),("Inductance",,[M^(-1)L^(-2)T^(2)Q^(2)]),("Resistivity",,[L^(2)T^(-2)]):}