2. Charging a capacitor through a resistor. The capacitor initially starts with no charge. Refer to the cireuit diagram on the right. R = 1800 2 C = 225 µF hematical (e). Explain what happens to the voltage across the capacitor after the time interval t 5 time constants. (1). Carefully draw a graph of the time dependent behavior of the voltage across the capacitor, and label everything! (g). Calculate the time elapsed when the voltage across the capacitor is equal to the voltage across the resistor. Vps = 10 volts
2. Charging a capacitor through a resistor. The capacitor initially starts with no charge. Refer to the cireuit diagram on the right. R = 1800 2 C = 225 µF hematical (e). Explain what happens to the voltage across the capacitor after the time interval t 5 time constants. (1). Carefully draw a graph of the time dependent behavior of the voltage across the capacitor, and label everything! (g). Calculate the time elapsed when the voltage across the capacitor is equal to the voltage across the resistor. Vps = 10 volts
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Transcribed Image Text:2. Charging a capacitor through a resistor.
The capacitor initially starts with no charge.
Refer to the circuit diagram on the right.
R = 1800 2
C = 225 µF
hematical ex
+
(e). Explain what happens to the voltage across the
capacitor after the time interval t= 5 time constants.
(). Carefully draw a graph of the time dependent
behavior of the voltage across the capacitor, and
label everything!
(g). Calculate the time elapsed when the voltage
across the capacitor is equal to the voltage across the
Vps = 10 volts
resistor.
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