Answer:
ФB = 4.89 W
Explanation:
In order to calculate the magnetic flux trough the triangular wire loop, you use the following formula:
[tex]\Phi_B=B\cdot A=BAcos\theta[/tex] (1)
B: magnitude of the magnetic field = 4.15T
A: area of the triangular loop
θ: angle between the normal to the surface and the direction of the magnetic field = 0°
Both direction of the magnetic field and the normal vector to the surface are parallel.
You calculate the area of the triangular loop:
[tex]A=\frac{bh}{2}[/tex] (2)
b: base = 1.65 m
h: height = [tex]\sqrt{(1.65m)^2-(\frac{1.65m}{2})^2}=1.42m[/tex]
[tex]A=\frac{(1.65m)(1.42m)}{2}=1.17m^2[/tex]
Next, you replace the values of A and B in the equation (1):
[tex]\Phi_B=(4.15T)(1.17m^2)=4.89W[/tex]
The magnetic flux trough the triangular wire loop is 4.89W
