Consider the circuit shown in the figure, where E, = 22.7 V, E, = 11.3 V, and R = 13.0 0. (Due to the nature of this problem, do not use rounded intermediate values in your calculations-Including answers submitted in WebAssign.) 28.0 N E2 12.0 N R (a) What is the current (in A) in each resistor? I, = 0.4821 A I2 = -0.175 Apply Kirchhoff's junction and loop rules to the circuit to find three separate equations in terms of the unknown currents, and solve your system for I, I2, and/or I3. A I3 = -0.7076 Apply Kirchhoff's junction and loop rules to the circuit to find three separate equations in terms of the unknown currents, and solve your system for I, I2, and/or I3. A (b) What is the power (in W) delivered to each resistor? P1 = 8.5077 Apply the equation relating power, resistance, and current, and use your results from part (a) to calculate the power delivered to each resistor. W P2 = 0.3675 Apply the equation relating power, resistance, and current, and use your results from part (a) to calculate the power delivered to each resistor. W Pa - 6.5090 Apply the equation relating power, resistance, and current, and use your results from part (a) to calculate the power delivered to each resistor. W (c) What is the total power (in W) supplied by both batteries? 13.3042 runnlied by the batteries and the power delivered to each resistor?

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Consider the circuit shown in the figure, where E, = 22.7 v, E, = 11.3 V, and R = 13.0 Q. (Due to the nature of this problem, do not use rounded intermediate values in your calculations-Including answers submitted in WebAssign.) 28.0 N Ez 12.0 N R (a) What is the current (in A) in each resistor? I, = 0.4821 A I, = -0.175 Apply Kirchhoff's junction and loop rules to the circuit to find three separate equations in terms of the unknown currents, and solve your system for I, I2, and/or I3. A I3 = -0.7076 Apply Kirchhoff's junction and loop rules to the circuit to find three separate equations in terms of the unknown currents, and solve your system for I,, 1, and/or I. A (b) What is the power (in W) delivered to each resistor? P1 = 8.5077 Apply the equation relating power, resistance, and current, and use your results from part (a) to calculate the power delivered to each resistor. W P2 Apply the equation relating power, resistance, and current, and use your results from part (a) to calculate the power delivered to each resistor. W 0.3675 Pa = 6.5090 Apply the equation relating power, resistance, and current, and use your results from part (a) to calculate the power delivered to each resistor. W (c) What is the total power (in W) supplied by both batteries? 13.3042 (d) What is the relationship between the total power supplied by the batteries and the power delivered to each resistor? O The total power supplied by the batteries is equal to the sum of the power delivered to each resistor. The total power supplied by the batteries is greater than the sum of the power delivered to each resistor. DII DD 80 F11 $12 FB F9 F10 F7 esc F4 F5 F6 F3 F2 F1 & ( ! @ 2# $ delete - 1 2 3 4 { } * 00