A magnetising field of `1500 A//m` produces a flux of `2*4xx10^-5` weber in a bar of iron of cross-sectional area `0*5cm^2`. Calculate the permeability and susceptibility of the iron bar used.

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.

A magneting field of 1600 Am^(-1) produces a magnetic flux of 2.4xx10^(-5) wb in an iron bar of cross-sectional area 0.2cm^(2) .Calculate the permeability and susceptibility of the bar.

The amgnetising field of 1600 Am^-1 produces a magnetic flux of 2.4 xx 10^-5 weber in a bar of iron of cross-section 0.2 cm^2 . Calculate relative permeability, intensity of magnetisation and susceptibility of the bar.

If a magnetising field of 1600 A//m produces a magnetic flux of 14xx10^(-5) Wb in an iron bar of cross-sectional area 0.2 cm^(2) . Then,

A magnetizing field of intensity 1600A//m produces a magnetic flux of 2.5 xx10^-5 Wb in a bar of iron of cross-section 0.2 cm^2 . The permeability of the bar is

A magnetising field of 1600 A/m produces a magnetic flux of 2.4 xx 10^(-5)Wb in a bar of iron of cross section 0.2"cm"^(2) . Then permeability of the bar is the equator

A magnetising field of 1600 A/m produces a magnetic flux of 2.4 xx 10^(-5)Wb in a bar of iron of cross section 0.2"cm"^(2) . Then permeability of the bar is the equator

A magnetising field of 1600 Am^(-1) produces a magnetic flux 2.4 xx 10^(-5) weber in an iron bar of cross-sectional area 0.2 cm^(2) . The susceptibility of the iron bar will be