At the time the switch is closed in the circuit, the voltage across the paralleled capacitors is 50 V and the voltage on the C3 capacitor is 40 V. (Figure 1) Take that C₁ = 460 nF, C₂ = 990 nF and C3 = 500 nF. Figure C3 HE + 40 V C₁50 VC₂ t=0 400 Ω www < 1 of 1 > 24 kΩ { 16 kΩ { What percentage of the initial energy stored in the three capacitors is dissipated in the 24 k2 resistor? Express your answer using two decimal places. % diss = Submit Part B % diss = What percentage of the initial energy stored in the three capacitors is dissipated in the 400 $ resistor? Express your answer using two decimal places. Submit Part C Request Answer % diss= % Request Answer % What percentage of the initial energy stored in the three capacitors is dissipated in the 16 ks resistor? Express your answer using two decimal places. %

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At the time the switch is closed in the circuit, the voltage across the paralleled capacitors is 50 V and the voltage on the C3 capacitor is 40 V. (Figure 1) Take that C₁ = 460 nF, C₂ = 990 nF and C3 = 500 nF. Figure C₁ 50 V HE + 40 V C₂ t = 0 400 Ω m < 1 of 1 > 24 kΩΣ 16 kΩΣ ▼ Part A What percentage of the initial energy stored in the three capacitors is dissipated in the 24 km2 resistor? Express your answer using two decimal places. % diss = Submit Part B % diss = What percentage of the initial energy stored in the three capacitors is dissipated in the 400 resistor? Express your answer using two decimal places. Submit Part C Request Answer % diss = % Request Answer % What percentage of the initial energy stored in the three capacitors is dissipated in the 16 ks resistor? Express your answer using two decimal places. %

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Part D What percentage of the initial energy is trapped in the capacitors? Express your answer using two decimal places. % trapped %