The capacitor stores 79.2 mJ of energy after a Voat = 10.0 V battery has been connected to the circuit for a long time. R. Then, the capacitor discharges half of this stored energy in R, bat exactly 1.28 s when the battery is removed and replaced by a RI = 1.10 x 10³ Q load. C, Determine the value of the capacitance C¡ in microfarads and resistance Rj in ohms.

A small circuit consists of a resistor in series with a capacitor, as shown.

 

The capacitor stores 79.2 mJ of energy after a ?bat=10.0 V battery has been connected to the circuit for a long time. Then, the capacitor discharges half of this stored energy in exactly1.28 s when the battery is removed and replaced by a ??=1.10×10^3 Ω load.

Determine the value of the capacitance C1 in microfarads and resistance R1 in ohms.

 

Please solve for both C1 and R1, thanks!

Transcribed Image Text:

A small circuit consists of a resistor in series with a capacitor, as shown. The capacitor stores 79.2 mJ of energy after a Vbat = 10.0 V 500 R battery has been connected to the circuit for a long time. Then, the capacitor discharges half of this stored energy in R, V. bat exactly 1.28 s when the battery is removed and replaced by a R1, = 1.10 x 103 load. C, Determine the value of the capacitance C¡ in microfarads and resistance R, in ohms. C| = HF R| = Ω