The circuits of Figure below have the total resistance, RT, as shown. Find the following: a. The magnitude of current in the circuit. b. The total power delivered by the voltage source. c. The direction of current through each resistor in the circuit. d. The value of the unknown resistance, R. e. The voltage drop across each resistor. f. The power dissipated by each resistor. Verify that the summation of powers dissipated by the resistors is equal to the power delivered by the voltage source. 300 N 100 N 150 N E = 25 V RT = 800 N

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The circuits of Figure below have the total resistance, RT, as shown. Find the
following:
a. The magnitude of current in the circuit.
b. The total power delivered by the voltage source.
c. The direction of current through each resistor in the circuit.
d. The value of the unknown resistance, R.
e. The voltage drop across each resistor.
f. The power dissipated by each resistor. Verify that the summation of powers
dissipated by the resistors is equal to the power delivered by the voltage
source.
300 N
100 N
150 N
E = 25 V
RT = 800 N
Transcribed Image Text:The circuits of Figure below have the total resistance, RT, as shown. Find the following: a. The magnitude of current in the circuit. b. The total power delivered by the voltage source. c. The direction of current through each resistor in the circuit. d. The value of the unknown resistance, R. e. The voltage drop across each resistor. f. The power dissipated by each resistor. Verify that the summation of powers dissipated by the resistors is equal to the power delivered by the voltage source. 300 N 100 N 150 N E = 25 V RT = 800 N
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