Physics – Induced Current from Magnetic Flux vs Time Graph
Question:
Multiple Choice (10 points)
The graph below shows the magnetic flux Φ through a loop over time. Which of the following shows the correct current I through the loop over the same time interval?
Answer and Detailed Explanation:
Step 1: Understand the Graph of Magnetic Flux
The magnetic flux Φ vs time graph has two regions:
- Region 1 (0 < t < 3 s): Linear decrease in flux
- Region 2 (3 < t < 6 s): Flux is constant
Step 2: Apply Faraday’s Law of Induction
Faraday’s law gives the induced EMF as:
ε = -dΦ/dt
For Region 1:
- The flux is decreasing at a constant rate → dΦ/dt = constant < 0
- Thus, ε = – (negative value) = positive constant
For Region 2:
- Flux is constant → dΦ/dt = 0
- Hence, ε = 0
Step 3: Use Ohm’s Law to Relate EMF and Current
Ohm’s law: I = ε / R (where R is resistance)
So, current follows the same behavior as EMF:
- 0 < t < 3 s: Current is positive and constant
- 3 < t < 6 s: Current is zero
✅ Final Answer:
The current is positive and constant between 0 < t < 3 s and zero between 3 < t < 6 s.
Correct Option: 5
The current is positive and constant between 0 < t < 3 s and zero between 3 < t < 6 s.
Correct Option: 5