Using the formulae (`(vecF)=(vec qv)xx (vec B) and B= (mu_0)i/(2pi r )`,find the SI units of the magnetic field B and the permeability constant

Using the relation vec(B) = mu_(0) (vec(H)+ vec(M)) , show that X_(m) = mu_(r) - 1 .

Find the dimensions of a. electric field E, magnetic field B and magnetic permeability mu_0 . The relavant equations are F=qE, FqvB, and B=(mu_0I)/(2pi alpha), where F is force q is charge, nu is speed I is current, and alpha is distance.

If |vec a| = 2, |vec b| = 5 and |vec a xx vec b| = 8 , find the value of vec a. vecb

If vec a xx vec b and vec a. vecb = 0 then

In Ampere's law (oint (vec B).(vec dl))=(mu_0)I , the current outside the curve is not included on the right hand side. Does it mean that the magnetic field B calculated by using Ampere's law , gives the contribution of only the currents crossing the area bounded by the curve?

If for two vectors vec(A) and vec(B), vec(A) xx vec(B) = 0 then the vectors are :

If for two vectors vec(A) and vec(B), vec(A) xx vec(B) = 0 then the vectors are :

Show that (vec a - vec b) xx (vec a + vec b) = 2 (vec a xx vec b)

If the angel between unit vectors vec aa n d vec b60^0 , then find the value of | vec a- vec b|dot