In the circuit of (Figure 1), each resistor represents a light bulb. Let Rj = R2 = R3 = R4 = 4.56 N and let the EMF be 8,98 V. Part J Bulb R4 is now removed from the circuit, leaving a break in the wire at its position. What is the current in the bulb R1? Express your answer in amperes. Figure < 1 of 1> I = A R1 R3 R4 R2
In the circuit of (Figure 1), each resistor represents a light bulb. Let Rj = R2 = R3 = R4 = 4.56 N and let the EMF be 8,98 V. Part J Bulb R4 is now removed from the circuit, leaving a break in the wire at its position. What is the current in the bulb R1? Express your answer in amperes. Figure < 1 of 1> I = A R1 R3 R4 R2
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Please answer all 3 parts.
Transcribed Image Text:**Problem Statement:**
1. **Question:**
- Bulb \( R_4 \) is now removed from the circuit, leaving a break in the wire at its position. What is the current in the bulb \( R_2 \)?
- **Instruction:**
- Express your answer in amperes.
- **Answer Box:**
- \( I = \_\_ \, \text{A} \)
2. **Section: Part L**
- **Question:**
- Bulb \( R_4 \) is now removed from the circuit, leaving a break in the wire at its position. What is the current in the bulb \( R_3 \)?
- **Instruction:**
- Express your answer in amperes.
- **Answer Box:**
- \( I = \_\_ \, \text{A} \)
**Notes for Students:**
- Each question involves calculating the current through a specific bulb in a circuit after one component (bulb \( R_4 \)) has been removed.
- Consider how the removal of a bulb affects the circuit configuration (e.g., series or parallel connections).
- Use Ohm's Law and principles of circuit analysis to determine the answer.
![**Educational Website Text Transcription**
**Circuit Analysis Example**
In the circuit of Figure 1, each resistor represents a light bulb. Let \( R_1 = R_2 = R_3 = R_4 = 4.56 \, \Omega \) and let the EMF be \( 8.98 \, \text{V} \).
**Figure Description:**
The circuit diagram includes four resistors labeled \( R_1 \), \( R_2 \), \( R_3 \), and \( R_4 \). These resistors are arranged as follows:
- \( R_1 \) and \( R_2 \) are in parallel.
- \( R_3 \) and \( R_4 \) are also in parallel and connected in series with the \( R_1 \) and \( R_2 \) parallel combination.
- The entire setup is powered by a voltage source \( \mathcal{E} \), with a positive terminal on the left.
**Problem Part J:**
Bulb \( R_4 \) is now removed from the circuit, leaving a break in the wire at its position. What is the current in the bulb \( R_1 \)?
*Express your answer in amperes.*
I = [Answer Box]
(Use Ohm’s law and the properties of series and parallel circuits to solve this problem.)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F768a66a2-bff7-4da2-8ed9-a0414e992096%2F7c9a3130-d88e-48dd-8e92-b612c24ae2c9%2Fpo2q2ye_processed.jpeg&w=3840&q=75)
Transcribed Image Text:**Educational Website Text Transcription**
**Circuit Analysis Example**
In the circuit of Figure 1, each resistor represents a light bulb. Let \( R_1 = R_2 = R_3 = R_4 = 4.56 \, \Omega \) and let the EMF be \( 8.98 \, \text{V} \).
**Figure Description:**
The circuit diagram includes four resistors labeled \( R_1 \), \( R_2 \), \( R_3 \), and \( R_4 \). These resistors are arranged as follows:
- \( R_1 \) and \( R_2 \) are in parallel.
- \( R_3 \) and \( R_4 \) are also in parallel and connected in series with the \( R_1 \) and \( R_2 \) parallel combination.
- The entire setup is powered by a voltage source \( \mathcal{E} \), with a positive terminal on the left.
**Problem Part J:**
Bulb \( R_4 \) is now removed from the circuit, leaving a break in the wire at its position. What is the current in the bulb \( R_1 \)?
*Express your answer in amperes.*
I = [Answer Box]
(Use Ohm’s law and the properties of series and parallel circuits to solve this problem.)
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