If χ stands for the magnetic susceptibility of a substance, mu for its magnetic permeability and mu0 for the permeability of free space, then
![If `epsilon_(0)` and `mu_(0)` are, respectively, the electric permittivity and magnetic permeability - YouTube If `epsilon_(0)` and `mu_(0)` are, respectively, the electric permittivity and magnetic permeability - YouTube](https://i.ytimg.com/vi/1itJgkLy7ss/maxresdefault.jpg)
If `epsilon_(0)` and `mu_(0)` are, respectively, the electric permittivity and magnetic permeability - YouTube
What is the dimension of magnetic permeability of vacuum in terms of the basic units of mass M, length, L, time T, and charge Q? - Quora
![SOLVED: In terms of basic units of mass (M) , length (L) , time (T) and charge (Q) , the dimensions of magnetic permeability of vacuum (mu0) would be A. [MLQ^-2] B. [ SOLVED: In terms of basic units of mass (M) , length (L) , time (T) and charge (Q) , the dimensions of magnetic permeability of vacuum (mu0) would be A. [MLQ^-2] B. [](https://cdn.numerade.com/previews/e9c82a84-5f43-4c96-a237-3a5cd439295f_large.jpg)
SOLVED: In terms of basic units of mass (M) , length (L) , time (T) and charge (Q) , the dimensions of magnetic permeability of vacuum (mu0) would be A. [MLQ^-2] B. [
![If `mu_o` represents the magnetic permeability constant in free space and `Sigma_o` is the - YouTube If `mu_o` represents the magnetic permeability constant in free space and `Sigma_o` is the - YouTube](https://i.ytimg.com/vi/j96r2FPQnyo/maxresdefault.jpg)
If `mu_o` represents the magnetic permeability constant in free space and `Sigma_o` is the - YouTube
![Relation between the magnetic field vector vec(B) and magnetic intensity vec(H) at a point in a magnetic field vec(B)=muvec(H) where mu is the magnetic permeability of the medium in which the point Relation between the magnetic field vector vec(B) and magnetic intensity vec(H) at a point in a magnetic field vec(B)=muvec(H) where mu is the magnetic permeability of the medium in which the point](https://d10lpgp6xz60nq.cloudfront.net/web-thumb/164165947_web.png)
Relation between the magnetic field vector vec(B) and magnetic intensity vec(H) at a point in a magnetic field vec(B)=muvec(H) where mu is the magnetic permeability of the medium in which the point
![SOLVED: mu0 is permeability of vacuum, χm A. mu = mu01 + χm B. mu = mu0 ( χm - 1 ) C. mu = mu0 ( 1 - χm ) D. mu = mu0 ( 1 + χm ) SOLVED: mu0 is permeability of vacuum, χm A. mu = mu01 + χm B. mu = mu0 ( χm - 1 ) C. mu = mu0 ( 1 - χm ) D. mu = mu0 ( 1 + χm )](https://cdn.numerade.com/previews/658b4fe4-9ced-4cc2-8864-52fb9db32bf5_large.jpg)
SOLVED: mu0 is permeability of vacuum, χm A. mu = mu01 + χm B. mu = mu0 ( χm - 1 ) C. mu = mu0 ( 1 - χm ) D. mu = mu0 ( 1 + χm )
![The dimensional formula of 1/2mu0H^2 ( mu0 - Permeability of free space and H - magnetic field intensity) is: The dimensional formula of 1/2mu0H^2 ( mu0 - Permeability of free space and H - magnetic field intensity) is:](https://dwes9vv9u0550.cloudfront.net/images/5157931/1ff1848b-1783-415b-90d5-8dd8eb65a527.jpg)