A 1-m² loop of wire completely encloses a time-varying magnetic field that is uniformly distributed over the loop, as shown in Fig. P5.1.9. A voltmeter that draws negligible current is placed in the three positions shown. Determine (and give reasons for) the voltmeter readings in each of the three positions. 292 5 www 252 Ⓒ Area = 1 m² www. Ⓒ Ⓒ Ⓒ # + + FIGURE P5.1.9 B = 0.1t Wb/m² (into page) + Đ ✪ (a) ww www. 192 5 10 ୯ 252 ៨ 292 (b) (c) Ⓒ Ⓡ Ⓒ Ⓒ Ⓒ © Ⓒ + + ℗ 10 192 5 www
A 1-m² loop of wire completely encloses a time-varying magnetic field that is uniformly distributed over the loop, as shown in Fig. P5.1.9. A voltmeter that draws negligible current is placed in the three positions shown. Determine (and give reasons for) the voltmeter readings in each of the three positions. 292 5 www 252 Ⓒ Area = 1 m² www. Ⓒ Ⓒ Ⓒ # + + FIGURE P5.1.9 B = 0.1t Wb/m² (into page) + Đ ✪ (a) ww www. 192 5 10 ୯ 252 ៨ 292 (b) (c) Ⓒ Ⓡ Ⓒ Ⓒ Ⓒ © Ⓒ + + ℗ 10 192 5 www
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Part A, B and C
Transcribed Image Text:A 1-m² loop of wire completely encloses a time-varying magnetic field that is uniformly
distributed over the loop, as shown in Fig. P5.1.9. A voltmeter that draws negligible
current is placed in the three positions shown. Determine (and
voltmeter readings in each of the three positions.
give
reasons for) the
252
wwww
252
Ⓡ
www.
+
Area = 1 m²
+
Ⓒ
Ⓒ
Ⓡ
+
✪
FIGURE P5.1.9
B= 0.1t Wb/m²
(into page)
#
+
✪
Ⓡ
(a)
www.
www.
192
10
2592
252
-www
www.
(b)
(c)
Θ
+
+
Ⓒ
✪
Ⓒ
+
Ⓒ
A
Ⓒ
Ⓒ
+
A
+
✪
192
www
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