Answer:
Given the area A of a flat surface and the magnetic flux through the surface [tex]\Phi[/tex] it is possible to calculate the magnitude [tex]\frac{\Phi}{A}=B\ cos \theta[/tex].
Explanation:
The magnetic flux gives an idea of how many magnetic field lines are passing through a surface. The SI unit of the magnetic flux [tex]\Phi[/tex] is the weber (Wb), of the magnetic field B is the tesla (T) and of the area A is ([tex]m^{2}[/tex]). So 1 Wb=1 T.m².
For a flat surface S of area A in a uniform magnetic field B, with [tex]\theta[/tex] being the angle between the vector normal to the surface S and the direction of the magnetic field B, we define the magnetic flux through the surface as:
[tex]\Phi=B\ A\ cos\theta[/tex]
We are told the values of [tex]\Phi[/tex] and B, then we can calculate the magnitude
[tex]\frac{\Phi}{A}=B\ cos\theta[/tex]
