A person is working near the secondary of a transformer, as shown in the figure below. The primary voltage is 120 V (rms) at 60.0 Hz. The capacitance C, which is the stray capacitance between the hand and the secondary winding, is 22.0 pF. Assuming the person has a body resistance to ground R = 45.0 k2, determine the rms voltage across the body. Hint: Redraw the circuit with the secondary of the transformer as a simple AC source. V Transformer Leeeeeeeeee Need Help? Read It 5 000 V R₂₂
A person is working near the secondary of a transformer, as shown in the figure below. The primary voltage is 120 V (rms) at 60.0 Hz. The capacitance C, which is the stray capacitance between the hand and the secondary winding, is 22.0 pF. Assuming the person has a body resistance to ground R = 45.0 k2, determine the rms voltage across the body. Hint: Redraw the circuit with the secondary of the transformer as a simple AC source. V Transformer Leeeeeeeeee Need Help? Read It 5 000 V R₂₂
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Transcribed Image Text:A person is working near the secondary of a transformer, as shown in the figure below. The primary voltage is 120 V (rms) at 60.0 Hz. The capacitance C, which is the stray capacitance between the
hand and the secondary winding, is 22.0 pF. Assuming the person has a body resistance to ground R₂ 45.0 k, determine the rms voltage across the body. Hint: Redraw the circuit with the
secondary of the transformer as a simple AC source.
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