Physics equations/24-Electromagnetic Waves/Q:displacementCurrent

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c24ElectromagneticWaves_displacementCurrent_v1
{A circlular capactitor of radius 4.2 m has a gap of 8 mm, and a charge of 45 &mu;C. What is the electric field between the plates?} -a) 5.16E+04 N/C (or V/m) -b) 6.25E+04  N/C (or V/m) -c) 7.57E+04 N/C (or V/m) +d) 9.17E+04  N/C (or V/m) -e) 1.11E+05 N/C (or V/m)

2
{A circlular capactitor of radius 3.3 m has a gap of 16 mm, and a charge of 68 &mu;C. What is the electric field between the plates?} -a) 1.26E+05 N/C (or V/m) -b) 1.53E+05  N/C (or V/m) -c) 1.85E+05 N/C (or V/m) +d) 2.24E+05  N/C (or V/m) -e) 2.72E+05 N/C (or V/m)

3
{A circlular capactitor of radius 4.9 m has a gap of 11 mm, and a charge of 85 &mu;C. What is the electric field between the plates?} +a) 1.27E+05 N/C (or V/m) -b) 1.54E+05  N/C (or V/m) -c) 1.87E+05 N/C (or V/m) -d) 2.26E+05  N/C (or V/m) -e) 2.74E+05 N/C (or V/m)

4
{A circlular capactitor of radius 4.4 m has a gap of 18 mm, and a charge of 36 &mu;C. What is the electric field between the plates?} -a) 4.55E+04 N/C (or V/m) -b) 5.52E+04  N/C (or V/m) +c) 6.68E+04 N/C (or V/m) -d) 8.10E+04  N/C (or V/m) -e) 9.81E+04 N/C (or V/m)

5
{A circlular capactitor of radius 3.4 m has a gap of 15 mm, and a charge of 63 &mu;C. What is the electric field between the plates?} -a) 1.62E+05 N/C (or V/m) +b) 1.96E+05  N/C (or V/m) -c) 2.37E+05 N/C (or V/m) -d) 2.88E+05  N/C (or V/m) -e) 3.48E+05 N/C (or V/m)

6
{A circlular capactitor of radius 3.7 m has a gap of 8 mm, and a charge of 89 &mu;C. What is the electric field between the plates?} -a) 1.93E+05 N/C (or V/m) +b) 2.34E+05  N/C (or V/m) -c) 2.83E+05 N/C (or V/m) -d) 3.43E+05  N/C (or V/m) -e) 4.16E+05 N/C (or V/m)

7
{A circlular capactitor of radius 4.4 m has a gap of 18 mm, and a charge of 62 &mu;C. What is the electric field between the plates?} -a) 9.50E+04 N/C (or V/m) +b) 1.15E+05  N/C (or V/m) -c) 1.39E+05 N/C (or V/m) -d) 1.69E+05  N/C (or V/m) -e) 2.05E+05 N/C (or V/m)

8
{A circlular capactitor of radius 3.6 m has a gap of 8 mm, and a charge of 53 &mu;C. What is the electric field between the plates?} -a) 6.82E+04 N/C (or V/m) -b) 8.27E+04  N/C (or V/m) -c) 1.00E+05 N/C (or V/m) -d) 1.21E+05  N/C (or V/m) +e) 1.47E+05 N/C (or V/m)

9
{A circlular capactitor of radius 4.8 m has a gap of 14 mm, and a charge of 75 &mu;C. What is the electric field between the plates?} -a) 5.43E+04 N/C (or V/m) -b) 6.58E+04  N/C (or V/m) -c) 7.97E+04 N/C (or V/m) -d) 9.66E+04  N/C (or V/m) +e) 1.17E+05 N/C (or V/m)

10
{A circlular capactitor of radius 4.3 m has a gap of 7 mm, and a charge of 47 &mu;C. What is the electric field between the plates?} -a) 7.54E+04 N/C (or V/m) +b) 9.14E+04  N/C (or V/m) -c) 1.11E+05 N/C (or V/m) -d) 1.34E+05  N/C (or V/m) -e) 1.63E+05 N/C (or V/m)

11
{A circlular capactitor of radius 4.1 m has a gap of 14 mm, and a charge of 24 &mu;C. What is the electric field between the plates?} -a) 4.24E+04 N/C (or V/m) +b) 5.13E+04  N/C (or V/m) -c) 6.22E+04 N/C (or V/m) -d) 7.53E+04  N/C (or V/m) -e) 9.13E+04 N/C (or V/m)

12
{A circlular capactitor of radius 4.6 m has a gap of 12 mm, and a charge of 55 &mu;C. What is the electric field between the plates?} -a) 6.37E+04 N/C (or V/m) -b) 7.71E+04  N/C (or V/m) +c) 9.34E+04 N/C (or V/m) -d) 1.13E+05  N/C (or V/m) -e) 1.37E+05 N/C (or V/m)

13
{A circlular capactitor of radius 3.7 m has a gap of 10 mm, and a charge of 41 &mu;C. What is the electric field between the plates?} +a) 1.08E+05 N/C (or V/m) -b) 1.30E+05  N/C (or V/m) -c) 1.58E+05 N/C (or V/m) -d) 1.91E+05  N/C (or V/m) -e) 2.32E+05 N/C (or V/m)

14
{A circlular capactitor of radius 3.7 m has a gap of 10 mm, and a charge of 12 &mu;C. What is the electric field between the plates?} -a) 2.15E+04 N/C (or V/m) -b) 2.60E+04  N/C (or V/m) +c) 3.15E+04 N/C (or V/m) -d) 3.82E+04  N/C (or V/m) -e) 4.63E+04 N/C (or V/m)

15
{A circlular capactitor of radius 3.2 m has a gap of 12 mm, and a charge of 84 &mu;C. What is the electric field between the plates?} -a) 1.37E+05 N/C (or V/m) -b) 1.66E+05  N/C (or V/m) -c) 2.01E+05 N/C (or V/m) -d) 2.43E+05  N/C (or V/m) +e) 2.95E+05 N/C (or V/m)

16
{A circlular capactitor of radius 3.9 m has a gap of 19 mm, and a charge of 66 &mu;C. What is the electric field between the plates?} -a) 1.29E+05 N/C (or V/m) +b) 1.56E+05  N/C (or V/m) -c) 1.89E+05 N/C (or V/m) -d) 2.29E+05  N/C (or V/m) -e) 2.77E+05 N/C (or V/m)

17
{A circlular capactitor of radius 4.4 m has a gap of 12 mm, and a charge of 72 &mu;C. What is the electric field between the plates?} -a) 6.21E+04 N/C (or V/m) -b) 7.52E+04  N/C (or V/m) -c) 9.11E+04 N/C (or V/m) -d) 1.10E+05  N/C (or V/m) +e) 1.34E+05 N/C (or V/m)

18
{A circlular capactitor of radius 3.5 m has a gap of 14 mm, and a charge of 21 &mu;C. What is the electric field between the plates?} +a) 6.16E+04 N/C (or V/m) -b) 7.47E+04  N/C (or V/m) -c) 9.05E+04 N/C (or V/m) -d) 1.10E+05  N/C (or V/m) -e) 1.33E+05 N/C (or V/m)

19
{A circlular capactitor of radius 3.3 m has a gap of 14 mm, and a charge of 11 &mu;C. What is the electric field between the plates?} -a) 2.04E+04 N/C (or V/m) -b) 2.47E+04  N/C (or V/m) -c) 3.00E+04 N/C (or V/m) +d) 3.63E+04  N/C (or V/m) -e) 4.40E+04 N/C (or V/m)

20
{A circlular capactitor of radius 4.2 m has a gap of 12 mm, and a charge of 94 &mu;C. What is the electric field between the plates?} +a) 1.92E+05 N/C (or V/m) -b) 2.32E+05  N/C (or V/m) -c) 2.81E+05 N/C (or V/m) -d) 3.41E+05  N/C (or V/m) -e) 4.13E+05 N/C (or V/m)

21
{A circlular capactitor of radius 4.6 m has a gap of 12 mm, and a charge of 45 &mu;C. What is the electric field between the plates?} -a) 6.31E+04 N/C (or V/m) +b) 7.65E+04  N/C (or V/m) -c) 9.26E+04 N/C (or V/m) -d) 1.12E+05  N/C (or V/m) -e) 1.36E+05 N/C (or V/m)

22
{A circlular capactitor of radius 3.1 m has a gap of 9 mm, and a charge of 11 &mu;C. What is the electric field between the plates?} -a) 2.80E+04 N/C (or V/m) -b) 3.40E+04  N/C (or V/m) +c) 4.12E+04 N/C (or V/m) -d) 4.99E+04  N/C (or V/m) -e) 6.04E+04 N/C (or V/m)

23
{A circlular capactitor of radius 3.4 m has a gap of 7 mm, and a charge of 95 &mu;C. What is the electric field between the plates?} -a) 2.44E+05 N/C (or V/m) +b) 2.95E+05  N/C (or V/m) -c) 3.58E+05 N/C (or V/m) -d) 4.34E+05  N/C (or V/m) -e) 5.25E+05 N/C (or V/m)

c24ElectromagneticWaves_displacementCurrent_v1
{A circlular capactitor of radius 3.2 m has a gap of 13 mm, and a charge of 49 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 3.46E-11 Vs2m-1 -b) 4.20E-11  Vs2m-1 -c) 5.08E-11 Vs2m-1 +d) 6.16E-11  Vs2m-1 -e) 7.46E-11 Vs2m-1

2
{A circlular capactitor of radius 4.6 m has a gap of 12 mm, and a charge of 77 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 6.59E-11 Vs2m-1 -b) 7.99E-11  Vs2m-1 +c) 9.68E-11 Vs2m-1 -d) 1.17E-10  Vs2m-1 -e) 1.42E-10 Vs2m-1

3
{A circlular capactitor of radius 4.5 m has a gap of 19 mm, and a charge of 13 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 1.35E-11 Vs2m-1 +b) 1.63E-11  Vs2m-1 -c) 1.98E-11 Vs2m-1 -d) 2.40E-11  Vs2m-1 -e) 2.91E-11 Vs2m-1

4
{A circlular capactitor of radius 4.4 m has a gap of 8 mm, and a charge of 85 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 4.96E-11 Vs2m-1 -b) 6.01E-11  Vs2m-1 -c) 7.28E-11 Vs2m-1 -d) 8.82E-11  Vs2m-1 +e) 1.07E-10 Vs2m-1

5
{A circlular capactitor of radius 4.3 m has a gap of 11 mm, and a charge of 66 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 6.85E-11 Vs2m-1 +b) 8.29E-11  Vs2m-1 -c) 1.00E-10 Vs2m-1 -d) 1.22E-10  Vs2m-1 -e) 1.47E-10 Vs2m-1

6
{A circlular capactitor of radius 3.2 m has a gap of 19 mm, and a charge of 46 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} +a) 5.78E-11 Vs2m-1 -b) 7.00E-11  Vs2m-1 -c) 8.48E-11 Vs2m-1 -d) 1.03E-10  Vs2m-1 -e) 1.25E-10 Vs2m-1

7
{A circlular capactitor of radius 3.2 m has a gap of 18 mm, and a charge of 82 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 5.79E-11 Vs2m-1 -b) 7.02E-11  Vs2m-1 -c) 8.51E-11 Vs2m-1 +d) 1.03E-10  Vs2m-1 -e) 1.25E-10 Vs2m-1

8
{A circlular capactitor of radius 3.7 m has a gap of 17 mm, and a charge of 80 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 4.67E-11 Vs2m-1 -b) 5.65E-11  Vs2m-1 -c) 6.85E-11 Vs2m-1 -d) 8.30E-11  Vs2m-1 +e) 1.01E-10 Vs2m-1

9
{A circlular capactitor of radius 4.1 m has a gap of 7 mm, and a charge of 50 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 2.92E-11 Vs2m-1 -b) 3.53E-11  Vs2m-1 -c) 4.28E-11 Vs2m-1 -d) 5.19E-11  Vs2m-1 +e) 6.28E-11 Vs2m-1

10
{A circlular capactitor of radius 4.3 m has a gap of 19 mm, and a charge of 83 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 5.87E-11 Vs2m-1 -b) 7.11E-11  Vs2m-1 -c) 8.61E-11 Vs2m-1 +d) 1.04E-10  Vs2m-1 -e) 1.26E-10 Vs2m-1

11
{A circlular capactitor of radius 4.8 m has a gap of 12 mm, and a charge of 29 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 2.05E-11 Vs2m-1 -b) 2.48E-11  Vs2m-1 -c) 3.01E-11 Vs2m-1 +d) 3.64E-11  Vs2m-1 -e) 4.42E-11 Vs2m-1

12
{A circlular capactitor of radius 4.4 m has a gap of 17 mm, and a charge of 65 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 5.56E-11 Vs2m-1 -b) 6.74E-11  Vs2m-1 +c) 8.17E-11 Vs2m-1 -d) 9.90E-11  Vs2m-1 -e) 1.20E-10 Vs2m-1

13
{A circlular capactitor of radius 3.8 m has a gap of 14 mm, and a charge of 61 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} +a) 7.67E-11 Vs2m-1 -b) 9.29E-11  Vs2m-1 -c) 1.13E-10 Vs2m-1 -d) 1.36E-10  Vs2m-1 -e) 1.65E-10 Vs2m-1

14
{A circlular capactitor of radius 4.1 m has a gap of 8 mm, and a charge of 24 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 2.05E-11 Vs2m-1 -b) 2.49E-11  Vs2m-1 +c) 3.02E-11 Vs2m-1 -d) 3.65E-11  Vs2m-1 -e) 4.43E-11 Vs2m-1

15
{A circlular capactitor of radius 3.8 m has a gap of 14 mm, and a charge of 83 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 7.11E-11 Vs2m-1 -b) 8.61E-11  Vs2m-1 +c) 1.04E-10 Vs2m-1 -d) 1.26E-10  Vs2m-1 -e) 1.53E-10 Vs2m-1

16
{A circlular capactitor of radius 4.4 m has a gap of 16 mm, and a charge of 41 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 3.51E-11 Vs2m-1 -b) 4.25E-11  Vs2m-1 +c) 5.15E-11 Vs2m-1 -d) 6.24E-11  Vs2m-1 -e) 7.56E-11 Vs2m-1

17
{A circlular capactitor of radius 4.8 m has a gap of 17 mm, and a charge of 73 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} +a) 9.17E-11 Vs2m-1 -b) 1.11E-10  Vs2m-1 -c) 1.35E-10 Vs2m-1 -d) 1.63E-10  Vs2m-1 -e) 1.98E-10 Vs2m-1

18
{A circlular capactitor of radius 4.3 m has a gap of 14 mm, and a charge of 15 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 8.75E-12 Vs2m-1 -b) 1.06E-11  Vs2m-1 -c) 1.28E-11 Vs2m-1 -d) 1.56E-11  Vs2m-1 +e) 1.88E-11 Vs2m-1

19
{A circlular capactitor of radius 4.5 m has a gap of 18 mm, and a charge of 92 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 7.88E-11 Vs2m-1 -b) 9.54E-11  Vs2m-1 +c) 1.16E-10 Vs2m-1 -d) 1.40E-10  Vs2m-1 -e) 1.70E-10 Vs2m-1

20
{A circlular capactitor of radius 4.3 m has a gap of 12 mm, and a charge of 85 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 7.28E-11 Vs2m-1 -b) 8.82E-11  Vs2m-1 +c) 1.07E-10 Vs2m-1 -d) 1.29E-10  Vs2m-1 -e) 1.57E-10 Vs2m-1

21
{A circlular capactitor of radius 3.7 m has a gap of 8 mm, and a charge of 34 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 2.40E-11 Vs2m-1 -b) 2.91E-11  Vs2m-1 -c) 3.53E-11 Vs2m-1 +d) 4.27E-11  Vs2m-1 -e) 5.18E-11 Vs2m-1

22
{A circlular capactitor of radius 3.4 m has a gap of 8 mm, and a charge of 34 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 3.53E-11 Vs2m-1 +b) 4.27E-11  Vs2m-1 -c) 5.18E-11 Vs2m-1 -d) 6.27E-11  Vs2m-1 -e) 7.60E-11 Vs2m-1

23
{A circlular capactitor of radius 3.9 m has a gap of 19 mm, and a charge of 78 &mu;C. Compute the surface integral $$c^{-2}\oint\vec E\cdot d\vec A$$ over an inner face of the capacitor.} -a) 4.55E-11 Vs2m-1 -b) 5.51E-11  Vs2m-1 -c) 6.68E-11 Vs2m-1 -d) 8.09E-11  Vs2m-1 +e) 9.80E-11 Vs2m-1

c24ElectromagneticWaves_displacementCurrent_v1
{A circlular capactitor of radius 4.9 m has a gap of 17 mm, and a charge of 54 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is the decay time? } -a) 2.92E-04 s +b) 3.54E-04  s -c) 4.28E-04  s -d) 5.19E-04  s -e) 6.29E-04  s

2
{A circlular capactitor of radius 4.6 m has a gap of 11 mm, and a charge of 60 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is the decay time? } -a) 3.28E-04 s -b) 3.97E-04  s +c) 4.82E-04  s -d) 5.83E-04  s -e) 7.07E-04  s

3
{A circlular capactitor of radius 3.7 m has a gap of 15 mm, and a charge of 36 &mu;C. The capacitor is discharged through a 6 k&Omega; resistor. What is the decay time? } -a) 1.04E-04 s -b) 1.26E-04  s +c) 1.52E-04  s -d) 1.85E-04  s -e) 2.24E-04  s

4
{A circlular capactitor of radius 3.3 m has a gap of 14 mm, and a charge of 43 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is the decay time? } +a) 1.95E-04 s -b) 2.36E-04  s -c) 2.86E-04  s -d) 3.46E-04  s -e) 4.20E-04  s

5
{A circlular capactitor of radius 4.6 m has a gap of 7 mm, and a charge of 18 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is the decay time? } -a) 6.25E-04 s +b) 7.57E-04  s -c) 9.17E-04  s -d) 1.11E-03  s -e) 1.35E-03  s

6
{A circlular capactitor of radius 3.1 m has a gap of 11 mm, and a charge of 76 &mu;C. The capacitor is discharged through a 8 k&Omega; resistor. What is the decay time? } +a) 1.94E-04 s -b) 2.36E-04  s -c) 2.85E-04  s -d) 3.46E-04  s -e) 4.19E-04  s

7
{A circlular capactitor of radius 3.6 m has a gap of 14 mm, and a charge of 98 &mu;C. The capacitor is discharged through a 8 k&Omega; resistor. What is the decay time? } -a) 1.40E-04 s -b) 1.70E-04  s +c) 2.06E-04  s -d) 2.50E-04  s -e) 3.02E-04  s

8
{A circlular capactitor of radius 4.3 m has a gap of 8 mm, and a charge of 12 &mu;C. The capacitor is discharged through a 7 k&Omega; resistor. What is the decay time? } -a) 3.07E-04 s -b) 3.71E-04  s +c) 4.50E-04  s -d) 5.45E-04  s -e) 6.61E-04  s

9
{A circlular capactitor of radius 4.3 m has a gap of 13 mm, and a charge of 44 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is the decay time? } -a) 2.00E-04 s -b) 2.43E-04  s -c) 2.94E-04  s +d) 3.56E-04  s -e) 4.31E-04  s

10
{A circlular capactitor of radius 4 m has a gap of 16 mm, and a charge of 48 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is the decay time? } -a) 1.16E-04 s -b) 1.41E-04  s -c) 1.71E-04  s -d) 2.07E-04  s +e) 2.50E-04  s

11
{A circlular capactitor of radius 4.8 m has a gap of 16 mm, and a charge of 89 &mu;C. The capacitor is discharged through a 6 k&Omega; resistor. What is the decay time? } -a) 1.98E-04 s +b) 2.40E-04  s -c) 2.91E-04  s -d) 3.53E-04  s -e) 4.27E-04  s

12
{A circlular capactitor of radius 4.1 m has a gap of 11 mm, and a charge of 51 &mu;C. The capacitor is discharged through a 8 k&Omega; resistor. What is the decay time? } +a) 3.40E-04 s -b) 4.12E-04  s -c) 4.99E-04  s -d) 6.05E-04  s -e) 7.33E-04  s

13
{A circlular capactitor of radius 3.8 m has a gap of 12 mm, and a charge of 56 &mu;C. The capacitor is discharged through a 8 k&Omega; resistor. What is the decay time? } +a) 2.68E-04 s -b) 3.24E-04  s -c) 3.93E-04  s -d) 4.76E-04  s -e) 5.77E-04  s

14
{A circlular capactitor of radius 4.2 m has a gap of 18 mm, and a charge of 97 &mu;C. The capacitor is discharged through a 7 k&Omega; resistor. What is the decay time? } +a) 1.91E-04 s -b) 2.31E-04  s -c) 2.80E-04  s -d) 3.39E-04  s -e) 4.11E-04  s

15
{A circlular capactitor of radius 4.7 m has a gap of 19 mm, and a charge of 27 &mu;C. The capacitor is discharged through a 6 k&Omega; resistor. What is the decay time? } -a) 1.60E-04 s +b) 1.94E-04  s -c) 2.35E-04  s -d) 2.85E-04  s -e) 3.45E-04  s

16
{A circlular capactitor of radius 4 m has a gap of 14 mm, and a charge of 24 &mu;C. The capacitor is discharged through a 7 k&Omega; resistor. What is the decay time? } -a) 1.84E-04 s +b) 2.23E-04  s -c) 2.70E-04  s -d) 3.27E-04  s -e) 3.96E-04  s

17
{A circlular capactitor of radius 3.3 m has a gap of 12 mm, and a charge of 63 &mu;C. The capacitor is discharged through a 7 k&Omega; resistor. What is the decay time? } -a) 9.94E-05 s -b) 1.20E-04  s -c) 1.46E-04  s +d) 1.77E-04  s -e) 2.14E-04  s

18
{A circlular capactitor of radius 3.2 m has a gap of 8 mm, and a charge of 12 &mu;C. The capacitor is discharged through a 7 k&Omega; resistor. What is the decay time? } +a) 2.49E-04 s -b) 3.02E-04  s -c) 3.66E-04  s -d) 4.43E-04  s -e) 5.37E-04  s

19
{A circlular capactitor of radius 4.9 m has a gap of 13 mm, and a charge of 35 &mu;C. The capacitor is discharged through a 5 k&Omega; resistor. What is the decay time? } +a) 2.57E-04 s -b) 3.11E-04  s -c) 3.77E-04  s -d) 4.57E-04  s -e) 5.53E-04  s

20
{A circlular capactitor of radius 4.1 m has a gap of 14 mm, and a charge of 71 &mu;C. The capacitor is discharged through a 6 k&Omega; resistor. What is the decay time? } -a) 1.65E-04 s +b) 2.00E-04  s -c) 2.43E-04  s -d) 2.94E-04  s -e) 3.56E-04  s

21
{A circlular capactitor of radius 3.2 m has a gap of 12 mm, and a charge of 33 &mu;C. The capacitor is discharged through a 6 k&Omega; resistor. What is the decay time? } +a) 1.42E-04 s -b) 1.73E-04  s -c) 2.09E-04  s -d) 2.53E-04  s -e) 3.07E-04  s

22
{A circlular capactitor of radius 3.4 m has a gap of 8 mm, and a charge of 64 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is the decay time? } +a) 3.62E-04 s -b) 4.38E-04  s -c) 5.31E-04  s -d) 6.43E-04  s -e) 7.79E-04  s

23
{A circlular capactitor of radius 3.1 m has a gap of 15 mm, and a charge of 73 &mu;C. The capacitor is discharged through a 8 k&Omega; resistor. What is the decay time? } -a) 6.62E-05 s -b) 8.02E-05  s -c) 9.71E-05  s -d) 1.18E-04  s +e) 1.43E-04  s

c24ElectromagneticWaves_displacementCurrent_v1
{A circlular capactitor of radius 3.3 m has a gap of 12 mm, and a charge of 93 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 9.88E-09 Tesla -b) 1.24E-08  Tesla -c) 1.57E-08 Tesla -d) 1.97E-08  Tesla +e) 2.48E-08 Tesla

2
{A circlular capactitor of radius 4.1 m has a gap of 11 mm, and a charge of 66 &mu;C. The capacitor is discharged through a 6 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 6.33E-09 Tesla -b) 7.96E-09  Tesla -c) 1.00E-08 Tesla +d) 1.26E-08  Tesla -e) 1.59E-08 Tesla

3
{A circlular capactitor of radius 4.4 m has a gap of 15 mm, and a charge of 63 &mu;C. The capacitor is discharged through a 8 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 7.92E-09 Tesla +b) 9.97E-09  Tesla -c) 1.26E-08 Tesla -d) 1.58E-08  Tesla -e) 1.99E-08 Tesla

4
{A circlular capactitor of radius 4 m has a gap of 13 mm, and a charge of 89 &mu;C. The capacitor is discharged through a 6 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 8.62E-09 Tesla -b) 1.09E-08  Tesla -c) 1.37E-08 Tesla -d) 1.72E-08  Tesla +e) 2.17E-08 Tesla

5
{A circlular capactitor of radius 4.3 m has a gap of 10 mm, and a charge of 46 &mu;C. The capacitor is discharged through a 5 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} +a) 8.32E-09 Tesla -b) 1.05E-08  Tesla -c) 1.32E-08 Tesla -d) 1.66E-08  Tesla -e) 2.09E-08 Tesla

6
{A circlular capactitor of radius 4.1 m has a gap of 15 mm, and a charge of 90 &mu;C. The capacitor is discharged through a 5 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 1.41E-08 Tesla -b) 1.78E-08  Tesla -c) 2.24E-08 Tesla +d) 2.82E-08  Tesla -e) 3.55E-08 Tesla

7
{A circlular capactitor of radius 4.6 m has a gap of 12 mm, and a charge of 52 &mu;C. The capacitor is discharged through a 7 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 3.30E-09 Tesla -b) 4.15E-09  Tesla -c) 5.23E-09 Tesla +d) 6.58E-09  Tesla -e) 8.29E-09 Tesla

8
{A circlular capactitor of radius 3.6 m has a gap of 19 mm, and a charge of 98 &mu;C. The capacitor is discharged through a 6 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 1.90E-08 Tesla -b) 2.40E-08  Tesla -c) 3.02E-08 Tesla -d) 3.80E-08  Tesla +e) 4.78E-08 Tesla

9
{A circlular capactitor of radius 4.6 m has a gap of 18 mm, and a charge of 44 &mu;C. The capacitor is discharged through a 7 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 6.64E-09 Tesla +b) 8.36E-09  Tesla -c) 1.05E-08 Tesla -d) 1.32E-08  Tesla -e) 1.67E-08 Tesla

10
{A circlular capactitor of radius 4.9 m has a gap of 18 mm, and a charge of 45 &mu;C. The capacitor is discharged through a 7 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 2.82E-09 Tesla -b) 3.54E-09  Tesla -c) 4.46E-09 Tesla -d) 5.62E-09  Tesla +e) 7.07E-09 Tesla

11
{A circlular capactitor of radius 4.3 m has a gap of 15 mm, and a charge of 21 &mu;C. The capacitor is discharged through a 7 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 1.62E-09 Tesla -b) 2.04E-09  Tesla -c) 2.57E-09 Tesla -d) 3.23E-09  Tesla +e) 4.07E-09 Tesla

12
{A circlular capactitor of radius 4.7 m has a gap of 16 mm, and a charge of 12 &mu;C. The capacitor is discharged through a 8 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 6.62E-10 Tesla -b) 8.33E-10  Tesla -c) 1.05E-09 Tesla -d) 1.32E-09  Tesla +e) 1.66E-09 Tesla

13
{A circlular capactitor of radius 4.9 m has a gap of 16 mm, and a charge of 46 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} +a) 5.00E-09 Tesla -b) 6.29E-09  Tesla -c) 7.92E-09 Tesla -d) 9.97E-09  Tesla -e) 1.26E-08 Tesla

14
{A circlular capactitor of radius 4.9 m has a gap of 14 mm, and a charge of 56 &mu;C. The capacitor is discharged through a 6 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 3.18E-09 Tesla -b) 4.00E-09  Tesla -c) 5.04E-09 Tesla -d) 6.34E-09  Tesla +e) 7.99E-09 Tesla

15
{A circlular capactitor of radius 4.8 m has a gap of 14 mm, and a charge of 55 &mu;C. The capacitor is discharged through a 8 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 3.95E-09 Tesla -b) 4.97E-09  Tesla +c) 6.26E-09 Tesla -d) 7.88E-09  Tesla -e) 9.92E-09 Tesla

16
{A circlular capactitor of radius 4.4 m has a gap of 12 mm, and a charge of 85 &mu;C. The capacitor is discharged through a 8 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 5.39E-09 Tesla -b) 6.79E-09  Tesla -c) 8.55E-09 Tesla +d) 1.08E-08  Tesla -e) 1.35E-08 Tesla

17
{A circlular capactitor of radius 3.1 m has a gap of 9 mm, and a charge of 85 &mu;C. The capacitor is discharged through a 5 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 2.33E-08 Tesla -b) 2.93E-08  Tesla +c) 3.69E-08 Tesla -d) 4.65E-08  Tesla -e) 5.85E-08 Tesla

18
{A circlular capactitor of radius 4.6 m has a gap of 15 mm, and a charge of 57 &mu;C. The capacitor is discharged through a 9 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 4.43E-09 Tesla -b) 5.57E-09  Tesla +c) 7.02E-09 Tesla -d) 8.83E-09  Tesla -e) 1.11E-08 Tesla

19
{A circlular capactitor of radius 4 m has a gap of 14 mm, and a charge of 78 &mu;C. The capacitor is discharged through a 5 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 9.77E-09 Tesla -b) 1.23E-08  Tesla -c) 1.55E-08 Tesla -d) 1.95E-08  Tesla +e) 2.45E-08 Tesla

20
{A circlular capactitor of radius 3.5 m has a gap of 14 mm, and a charge of 88 &mu;C. The capacitor is discharged through a 7 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 1.86E-08 Tesla -b) 2.34E-08  Tesla +c) 2.95E-08 Tesla -d) 3.72E-08  Tesla -e) 4.68E-08 Tesla

21
{A circlular capactitor of radius 3.9 m has a gap of 8 mm, and a charge of 55 &mu;C. The capacitor is discharged through a 8 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 5.30E-09 Tesla +b) 6.67E-09  Tesla -c) 8.39E-09 Tesla -d) 1.06E-08  Tesla -e) 1.33E-08 Tesla

22
{A circlular capactitor of radius 4.8 m has a gap of 9 mm, and a charge of 53 &mu;C. The capacitor is discharged through a 6 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 3.26E-09 Tesla -b) 4.11E-09  Tesla +c) 5.17E-09 Tesla -d) 6.51E-09  Tesla -e) 8.19E-09 Tesla

23
{A circlular capactitor of radius 4.1 m has a gap of 9 mm, and a charge of 79 &mu;C. The capacitor is discharged through a 6 k&Omega; resistor. What is what is the maximum magnetic field at the edge of the capacitor? (There are two ways to do this; you should know both.)} -a) 7.80E-09 Tesla -b) 9.82E-09  Tesla +c) 1.24E-08 Tesla -d) 1.56E-08  Tesla -e) 1.96E-08 Tesla