Problem 2 For the single node pair circuit below is = -0.5 A, R₁ = 10 ohm, R₂ = 115 ohm, R3 = 57 ohm, and R4 = 124 ohm. Find 11, 12, 13, 14, and is in amperes. 4₂ R₁ R₂ R3 M 0.5 Vx Ra W

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PROBLEM.2(NEED A NEAT HANDWRITTEN SOLUTION ONLY OTHERWISE DOWNVOTE)

**Problem 2**

For the single node pair circuit below \(i_s = -0.5 \: A\), \(R_1 = 10 \:\Omega\), \(R_2 = 115 \:\Omega\), \(R_3 = 57 \:\Omega\), and \(R_4 = 124 \:\Omega\). Find \(i_1\), \(i_2\), \(i_3\), \(i_4\), and \(i_5\) in amperes.

**Diagram Explanation:**

The schematic diagram consists of a circuit with a single node pair and multiple components arranged as follows:

- **Resistor \(R_1\)**, with a resistance of \(10 \:\Omega\), is connected with current \(i_1\) flowing through it from left to right.
- **Resistor \(R_2\)**, with a resistance of \(115 \:\Omega\), is connected in series with \(R_1\), with current \(i_2\) flowing from left to right.
- **Voltage \(V_X\)**, represented as a source with negative on the left and positive on the right, is in the same loop with \(R_1\) and \(R_2\).
- A current source \(i_s\), with a current of \(-0.5 \: A\), flows from the lower node to the upper node.
- **Resistor \(R_3\)**, with a resistance of \(57 \:\Omega\), is in series within the circuit portion right after the current source \(i_s\), with the current \(i_3\) flowing left to right.
- **Voltage-controlled current source** with value \(0.5 V_X\) is present and is influenced by the voltage \(V_X\).
- **Resistor \(R_4\)**, with a resistance of \(124 \:\Omega\), follows the controlled current source with current \(i_4\) from left to right.

All currents are labeled with arrows indicating their flow direction:
- \(i_1\) and \(i_2\) flow from left to right through \(R_1\) and \(R_2\) respectively.
- \(i_s\) is shown flowing from bottom to top.
- \(i_3\) flows from left to right through \(R_3\).
-
Transcribed Image Text:**Problem 2** For the single node pair circuit below \(i_s = -0.5 \: A\), \(R_1 = 10 \:\Omega\), \(R_2 = 115 \:\Omega\), \(R_3 = 57 \:\Omega\), and \(R_4 = 124 \:\Omega\). Find \(i_1\), \(i_2\), \(i_3\), \(i_4\), and \(i_5\) in amperes. **Diagram Explanation:** The schematic diagram consists of a circuit with a single node pair and multiple components arranged as follows: - **Resistor \(R_1\)**, with a resistance of \(10 \:\Omega\), is connected with current \(i_1\) flowing through it from left to right. - **Resistor \(R_2\)**, with a resistance of \(115 \:\Omega\), is connected in series with \(R_1\), with current \(i_2\) flowing from left to right. - **Voltage \(V_X\)**, represented as a source with negative on the left and positive on the right, is in the same loop with \(R_1\) and \(R_2\). - A current source \(i_s\), with a current of \(-0.5 \: A\), flows from the lower node to the upper node. - **Resistor \(R_3\)**, with a resistance of \(57 \:\Omega\), is in series within the circuit portion right after the current source \(i_s\), with the current \(i_3\) flowing left to right. - **Voltage-controlled current source** with value \(0.5 V_X\) is present and is influenced by the voltage \(V_X\). - **Resistor \(R_4\)**, with a resistance of \(124 \:\Omega\), follows the controlled current source with current \(i_4\) from left to right. All currents are labeled with arrows indicating their flow direction: - \(i_1\) and \(i_2\) flow from left to right through \(R_1\) and \(R_2\) respectively. - \(i_s\) is shown flowing from bottom to top. - \(i_3\) flows from left to right through \(R_3\). -
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