**Text:**Determine the current through resistor \( R_3 \) in the circuit shown in the figure below. The battery emf is 26 V and the individual resistances are: \( R_1 = 16 \, \Omega \), \( R_2 = 13 \, \Omega \), \( R_3 = 6 \, \Omega \), and \( R_4 = 11 \, \Omega \).**Circuit Diagram Description:**The diagram illustrates a simple circuit powered by a battery with an emf (electromotive force) of 26 volts. The circuit contains four resistors:- Resistor \( R_1 \) with a resistance of \( 16 \, \Omega \)- Resistor \( R_2 \) with a resistance of \( 13 \, \Omega \)- Resistor \( R_3 \) with a resistance of \( 6 \, \Omega \)- Resistor \( R_4 \) with a resistance of \( 11 \, \Omega \)The resistors are connected in a combination of series and parallel configurations. Resistors \( R_1 \) and \( R_2 \) are in series, and this combination is in parallel with the series combination of \( R_3 \) and \( R_4 \). The battery is connected across this entire network, providing the power to the circuit.

Answered: Image /qna-images/answer/22fdf6a4-00dc-40b3-b397-34e8761880c4.jpg

Determine the current through resistor R3 in the circuit shown in the figure below. The battery emf is 26 V and the individual resistances are: R₁ = 16 02, R₂ = 13 02, R3 = 6 , and R4 = 11 Q. R₁ R2 wwww R3 wwww H E R4

Determine the current through resistor R3 in the circuit shown in the figure below. The battery emf is 26 V and the individual resistances are: R₁ = 16 02, R₂ = 13 02, R3 = 6 , and R4 = 11 Q. R₁ R2 wwww R3 wwww H E R4

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Question

**Text:**

Determine the current through resistor \( R_3 \) in the circuit shown in the figure below. The battery emf is 26 V and the individual resistances are: \( R_1 = 16 \, \Omega \), \( R_2 = 13 \, \Omega \), \( R_3 = 6 \, \Omega \), and \( R_4 = 11 \, \Omega \).

**Circuit Diagram Description:**

The diagram illustrates a simple circuit powered by a battery with an emf (electromotive force) of 26 volts. The circuit contains four resistors:

- Resistor \( R_1 \) with a resistance of \( 16 \, \Omega \)
- Resistor \( R_2 \) with a resistance of \( 13 \, \Omega \)
- Resistor \( R_3 \) with a resistance of \( 6 \, \Omega \)
- Resistor \( R_4 \) with a resistance of \( 11 \, \Omega \)

The resistors are connected in a combination of series and parallel configurations. Resistors \( R_1 \) and \( R_2 \) are in series, and this combination is in parallel with the series combination of \( R_3 \) and \( R_4 \). The battery is connected across this entire network, providing the power to the circuit.

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