A circular coil with an area of 0.0500 m2 is wrapped with 500 turns of wire and is placed in a uniform magnetic field perpendicular to its plane. If the field changes in value from -0.100 T to +0.150 T in an interval of 0.500 s, what is the magnitude of the average voltage induced in the coil?

Question

A circular coil with an area of 0.0500 m2 is wrapped with 500 turns of wire and is placed in a uniform magnetic field perpendicular to its plane. If the field changes in value from -0.100 T to +0.150 T in an interval of 0.500 s, what is the magnitude of the average voltage induced in the coil?

BlackTom AI · Accepted Answer

We start by identifying the formula for the induced electromotive force in a coil: ε_avg = N · ΔΦ / Δt, where Φ is the magnetic flux per turn and N is the number of turns.

Option 1: 12.5 V. This matches the computed value, but we will verify by calculating step by step to confirm.

Step 1 — Compute flux per turn: Φ = B · A. The area A = 0.0500 m^2 and the magnetic field changes from B_i = -0.100 T to B_f = +0.150 T, so ΔB = B_f − B_i = 0.150 − (−0.100) = 0.250 T. Therefore, Φ_per_turn = A · ΔB = 0.0500 m^2 × 0.250 T = 0.0125 Wb (we can also think of this as the change in flux per turn in this interval).

Step 2 — Total change in flux for the coil: ΔΦ_total = N · ΔΦ_per_turn. With N = 500 turns, ΔΦ_total = 500 × 0.0125 Wb = 6.25 Wb.

Step 3 — Average induced emf: ε_avg = ΔΦ_total / Δt = 6.25 Wb / 0.500 s = 12.5 V.

Conclusion for Option 1: 12.5 V is consistent with the calculation, so this option is correct.

Option 2: 125 V. This would require either a tenfold underestimation of the time interval or a tenfold higher ΔΦ_total. Since Δt = 0.500 s is given and ΔΦ_total = 6.25 Wb is fixed by N, A, and ΔB, 125 V does not align with the formula ε_avg = NΔΦ/Δt.

Option 3: 188 V. This value is not supported by the computed ΔΦ/Δt using the given parameters. It would require a different ΔB, N, A, or Δt not present in the problem.

Option 4: 250 V. Similar to Option 2, this would demand a substantially larger ΔΦ_total or a much smaller Δt; the provided numbers yield a much smaller result, so this overestimates the emf.

APPHYSC142-031 with labs Exam Review - Final

A circular coil with an area of 0.0500 m2 is wrapped with 500 turns of wire and is placed in a uniform magnetic field perpendicular to its plane. If the field changes in value from -0.100 T to +0.150 T in an interval of 0.500 s, what is the magnitude of the average voltage induced in the coil?

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