Final answer:
The magnetic flux density is found by dividing the magnetic flux by the area through which it passes, giving us 1.5 tesla (T) for a flux of 15 webers through an area of 10 square meters.
Step-by-step explanation:
The magnetic flux density is a measure of the number of magnetic field lines passing through a given area perpendicular to the magnetic field. It is commonly referred to as the magnetic field density and has the unit of tesla (T) in the International System of Units, which can also be expressed as webers per square meter (Wb/m2). To find the magnetic flux density for a given magnetic flux and area, you can use the formula:
B = \( \frac{\Phi}{A} \)
Where B represents the magnetic flux density in teslas, \(\Phi\) represents the magnetic flux in webers (Wb), and A is the area in square meters (m2) through which the flux is passing.
With a magnetic flux (\(\Phi\)) of 15 webers (Wb) and an area (A) of 10 square meters (m2), the flux density can be calculated as follows:
B = \( \frac{15\ Wb}{10\ m2} = 1.5\ T