This option suggests that the resulting flux will be equal to the magnetic field strength (0.5 T). However, the flux depends on both the magnetic field strength and the area but is affected by the angle between them.
This option suggests that the resulting flux will be 0.5 Weber (Wb). Weber is the unit of magnetic flux, and this option directly provides the correct unit. However, we need to calculate the actual value.
This option suggests that the resulting flux will be 0.25 Weber (Wb). It is half the value provided in option B.
This option suggests that the resulting flux will be 0.25 Tesla (T), which is the magnetic field strength. It does not take into account the effect of the angle between the field and the area.
The correct statement is B. 0.5 Wb. To calculate the magnetic flux, you need to use the formula:
Magnetic Flux (Φ) = Magnetic Field Strength (B) × Area (A) × cos(θ)
Given:
Magnetic Field Strength (B) = 0.5 T
Area (A) = 2 m²
Angle (θ) = 60 degrees
Φ = 0.5 T × 2 m² × cos(60°)
Φ = 0.5 T × 2 m² × 0.5
Φ = 0.5 Wb
So, the resulting magnetic flux is indeed 0.5 Weber (Wb).