For the circuit shown in Figure 2, Determine the current through each circuit HINT: There are 5 unknown current values. This can be solved by writing a system of 5 independent equations for the 5 current values OR you may simplify the circuit (while being sure not to change any connection between batteries!) and then solve for 3 unknown current values and find the remaining 2 current values by analyzing the original circuit. 2. Determine the power input to the circuit by the batteries and the power dissipated from the circuit by the resistors. Demonstrate that energy is conserved by showing that “Power in = Power out”. HINT: What happens when current flows into the positive terminal of a battery instead of out of it?

For the circuit shown in Figure 2, Determine the current through each circuit HINT: There are 5 unknown current values. This can be solved by writing a system of 5 independent equations for the 5 current values OR you may simplify the circuit (while being sure not to change any connection between batteries!) and then solve for 3 unknown current values and find the remaining 2 current values by analyzing the original circuit. 2. Determine the power input to the circuit by the batteries and the power dissipated from the circuit by the resistors. Demonstrate that energy is conserved by showing that “Power in = Power out”. HINT: What happens when current flows into the positive terminal of a battery instead of out of it?

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Question

For the circuit shown in Figure 2,
1. Determine the current through each circuit

HINT: There are 5 unknown current values. This can be solved by writing a system of 5 independent equations for the 5 current values OR you may simplify the circuit (while being sure not to change any connection between batteries!) and then solve for 3 unknown current values and find the remaining 2 current values by analyzing the original circuit.

2. Determine the power input to the circuit by the batteries and the power dissipated from the circuit by the resistors. Demonstrate that energy is conserved by showing that “Power in = Power out”. HINT: What happens when current flows into the positive terminal of a battery instead of out of it?