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**Table 4** ΔV1 = 5, ΔV2 = 3 | | R(Ω) | i_m(A) | i_t(A) | % Error | |-------|------|-----|-----|---------| | R1 | 100 | 0.010 | | | | R2 | 200 | 0.010 | | | | R3 | 330 | 0.006 | | | 4. Using Kirchhoff’s Rules, construct enough mathematically independent equations to solve for the current of each resistor. Then calculate the % error between your measured and theoretical values for the current of each resistor. You MUST use Kirchhoff’s Rules.

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**Title: Electrical Circuit Setup #4** **Description:** This diagram represents an electrical circuit setup (Setup #4) featuring both series and parallel components. The circuit consists of three resistors and two voltage sources. **Components:** 1. **Resistors:** - **R1:** Positioned horizontally at the top of the diagram. - **R2:** Connected in series with R1, also positioned horizontally at the top. - **R3:** Positioned horizontally near the bottom and in parallel with the combination of R1 and R2. 2. **Voltage Sources:** - **V1:** Positioned horizontally at the bottom, connected in series with R3. It is oriented such that the positive terminal is on the left, and the negative terminal is on the right. - **V2:** Positioned horizontally in the central part of the circuit, between the junction points of R1 and R2. The positive terminal is on the left, and the negative terminal is on the right, indicating its direction in the circuit. **Configuration:** - The circuit is set up with R1 and R2 forming a series arrangement at the top path. - R3 is placed in parallel to this series configuration. - Voltage sources V1 and V2 provide potential differences in the circuit, with V1 connected in the path including R3 and V2 connected in the upper path with R1 and R2. This setup is used to study the effects of different resistor and power source configurations on current flow and voltage distribution in a circuit. Understanding this setup helps in learning about complex circuits that combine series and parallel components.