figure. The current through the battery is I, the battery's electromotive force (emf) is & = 4.85 V, and the resistor values are R₁ = R₁ R₂ = 2R, R3 = 4R, and R4 = 3R. Find the voltages across each resistor. V₁ = V₂ = V3 = V4 = x10 TOOLS V V V V R₁ = R www www R₁=3R www R₂ = 4R

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Chapter1: Units, Trigonometry. And Vectors
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The diagram shows a circuit consisting of four resistors connected to a battery with a current flowing through it. The battery's electromotive force (emf) is given as \( \mathcal{E} = 4.85 \, \text{V} \). The resistors have the following values: \( R_1 = R \), \( R_2 = 2R \), \( R_3 = 4R \), and \( R_4 = 3R \).

### Circuit Description:

- Resistor \( R_1 \) is in series with the combination of resistors \( R_3 \) and \( R_4 \) in parallel, and then \( R_2 \) is also in series with this combination.
- The total current through the battery is denoted as \( I \).

### Objective:

Find the voltages across each resistor.

- \( V_1 = \) [Text box for input] \( \text{V} \)
- \( V_2 = \) [Text box for input] \( \text{V} \)
- \( V_3 = \) [Text box for input] \( \text{V} \)
- \( V_4 = \) [Text box for input] \( \text{V} \)

The task is to calculate the voltage drop across each resistor using the known values and the configuration of the circuit.
Transcribed Image Text:The diagram shows a circuit consisting of four resistors connected to a battery with a current flowing through it. The battery's electromotive force (emf) is given as \( \mathcal{E} = 4.85 \, \text{V} \). The resistors have the following values: \( R_1 = R \), \( R_2 = 2R \), \( R_3 = 4R \), and \( R_4 = 3R \). ### Circuit Description: - Resistor \( R_1 \) is in series with the combination of resistors \( R_3 \) and \( R_4 \) in parallel, and then \( R_2 \) is also in series with this combination. - The total current through the battery is denoted as \( I \). ### Objective: Find the voltages across each resistor. - \( V_1 = \) [Text box for input] \( \text{V} \) - \( V_2 = \) [Text box for input] \( \text{V} \) - \( V_3 = \) [Text box for input] \( \text{V} \) - \( V_4 = \) [Text box for input] \( \text{V} \) The task is to calculate the voltage drop across each resistor using the known values and the configuration of the circuit.
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