Consider the circuit shown in below Figure. Find values of the resistances R₁ and R₂ that cause the voltages v₁ and v₂ to be v₁ = 1 V and v₂ = 2 V.

Find value of the resistance R₁ in ohms.

Find value of the resistance R₂ in ohms.

 

Transcribed Image Text:

The image depicts an electrical circuit consisting of two current sources and two resistors, arranged as follows: 1. **Current Sources:** - There is a 3 mA current source on the left side of the circuit, directing current upwards. - There is a 5 mA current source on the right side of the circuit, also directing current upwards. 2. **Resistors:** - **Resistor \( R_1 \):** Located in series with the 3 mA current source and is labeled with a voltage \( v_1 \). It sits on the left side of the circuit. - **Resistor \( R_2 \):** Situated in series with the 5 mA current source and is labeled with a voltage \( v_2 \). This resistor is on the right side of the circuit. 3. **Connecting Resistor:** - A 500 Ω resistor is connected between the nodes separating \( R_1 \) and \( R_2 \). The resistors \( R_1 \) and \( R_2 \) are depicted with polarity markers indicating the positive and negative orientations of \( v_1 \) and \( v_2 \), respectively. This circuit illustrates a typical configuration used in analyzing parallel and series components with separate current sources and can be used to study the interaction of parallel paths in electrical circuits.