Let `[in_0]` denote the permittivity of vaccum. If M = mass, L = length, T = time and A = electric current, then :

Let [in_(0)] denote the dimensional formula of the permittivity of vacuum. If M = mass, L = length, T = time and A = elctric current , then :

Let [epsi_(0)] denote the dimensional formula of the permittivity of vacuum. If M = mass, L = length, T= time and A= electric current, then

Let [in_(0)] denote the dimensional formula of the permittivity of vacuum. If M= mass, L=length, T=Time and A= electric current, then:

Let epsi_0 denote the dimensional formula of the permittivity of vacuum. If M= mass , L=length , T=time and A=electric current , then dimension of permittivity is given as [M^(p)L^(q)T^(r)A^(s)] . Find the value of (p-q+r)/(s)

Let [varepsilon_0] denote the dimensional formula of the permittivity of vacuum. If M =mass , L=length, T=time and I= electric current Then

Let [epsi_(0)] denote the dimensional formula of the permittivity of the vacuum and [mu_(0)] that of the permeability of the vacuum. If M = mass, L = length, T = time and I = electric current :

Let [epsilon_(0)] denote the dimensional formula of the permittivity of the vacuum, and [mu_(0)] that of the permeability of the vacuum. If M = mass ,L = length, T = time and I = electric current ,

Let [epsilon_(0)] denote the dimensional formula of the permittivity of the vacuum and [mu_(0)] that of the permeability of the vacuum. If M= mass, L=length, T= time and I= electric current

Let [in_(0)] denote the dimensional formula of the permittivity of the vacuum and [mu_(0)] that of the permability of the vacuum.If M="mass",L="length",T-"time" and I="electric current"

If M = mass, L = length, T = time and I = electric current, then the demensional formula of resistance R will be given by