The potential difference (V) across a capacitor that is discharging changes with time (t) according to the equation: V= Vo et/(CR) I where Vo - initial potential difference (in V) R - resistance of the circuit (in 0) C - capacitance of the capacitor (in F) A capacitor of 1.0 x 10-3 F discharges through a resistor of 2.2 x 104 Q. The initial potential difference is 15 V. Plot a suitable graph to find the time taken for the potential difference to fall to 3.0 V. Use the axes provided and label the graph fully.
The potential difference (V) across a capacitor that is discharging changes with time (t) according to the equation: V= Vo et/(CR) I where Vo - initial potential difference (in V) R - resistance of the circuit (in 0) C - capacitance of the capacitor (in F) A capacitor of 1.0 x 10-3 F discharges through a resistor of 2.2 x 104 Q. The initial potential difference is 15 V. Plot a suitable graph to find the time taken for the potential difference to fall to 3.0 V. Use the axes provided and label the graph fully.
Physics for Scientists and Engineers, Technology Update (No access codes included)
9th Edition
ISBN:9781305116399
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter28: Direct-current Circuits
Section: Chapter Questions
Problem 28.10OQ: The terminals of a battery are connected across two resistors in parallel. The resistances of the...
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The potential difference (V) across a capacitor that is discharging changes with time (t) according to the equation:
V= Vo et/(CR)
I
where Vo - initial potential difference (in V)
R - resistance of the circuit (in 0)
C - capacitance of the capacitor (in F)
A capacitor of 1.0 x 10-3 F discharges through a resistor of 2.2 x 104 Q. The initial potential difference is 15 V.
Plot a suitable graph to find the time taken for the potential difference to fall to 3.0 V.
Use the axes provided and label the graph fully.
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