A magnetising field of `2xx10^(3)Am^(-1)` produces a magnetic flux density of `8piT` in an iron rod. The relative permeability of the rod will be

A magnetising field of 1500""(A)/(m) produces a magnetic flux density of 0.48 Wb//m^(2) in a iron bar . Calculate permeability of iron bar used .

A magnetic field strength (H) 3xx10^(3) Am^(-1) produces a magnetic field of induction (B) of 12piT in an iron rod. Find the relative permeability of iron ?

A magnetising field of 360 Am^(-1) produces a magnetic flud density (B) =0.6 T in a ferromagnetic material what is its permeability in TmA^(-1) ?

A magnetising field intensity of 1000 A/m produces a magnetic flux density 0.25 (Wb)/ m^2 in a ferromagnetic substance. The relative permeability of ferromagnetic substance is (Approximately)

A magnetising field of 5000 A//m produces a magnetic flux of 5xx10^(-5) weber in an iron rod. If the area of cross section of the rod is 0.5 cm^(2) , then the permeability of the rod will be

A magnetising field of 5000 A/m produces a magnetic flux of 5xx10^(-5) weber in an iron rod. If the area of cross section of the rod is 0.5cm^(2) , then the permeability of the rod will be

A magnetizing field of 5000 A/m produces a magnetic flux of 5 xx 10^(-5) Wb in an iron rod of 0.5 cm^(2) area of cross-section. The permeability of the rod is (in Wb A^(-1) m^(-1) )

A magnetic field of 1600Am^-1 produces a magnetic flux of 2*4xx10^-5 weber in a bar of iron of cross section 0*2cm^2 . Calculate permeability and susceptibility of the bar.