Find the Thevenin and Norton equivalents with respect to terminals a-b.

 

Transcribed Image Text:

This image depicts an electrical circuit diagram featuring multiple resistors, nodes, and current paths. The circuit includes a voltage source and a current source, represented by the following components: **Voltage Source:** - V1: 10 V **Current Source:** - I1: 1 A **Resistors:** - R1: 2 Ω - R2: 1 Ω - R3: 2 Ω - R4: 2 Ω - R5: 2 Ω - R6: 1 Ω - R7: 1 Ω **Nodes:** - Node 1 - Node 2 - Node 3 **Current Directions:** - i1: Flows through R1 from the voltage source V1 towards Node 1 - i2: Flows downwards through R2 from Node 1 - i3: Flows through R3 from Node 1 to Node 2 - i4: Flows horizontally across the top of the circuit through R4, from Node 1 to Node 2 - i5: Flows through R5 from Node 2 to Node 3 - i6: Flows downwards through R6 from Node 2 - i7: Flows downwards through R7 from Node 3 **Node Points:** - Node 1 is the connecting point between R1, R2, R3, and R4. - Node 2 is the junction for R3, R4, R5, and R6. - Node 3 connects R5, R7, and is adjacent to the current source I1. **Circuit Path:** - The circuit path initiates from the voltage source V1, traverses through R1, reaches Node 1, splits into various paths (through R3, R4), continues via R5 to Node 3, and completes the path at the 1 A current source I1. This diagram is useful for analyzing current distribution and voltage potentials across different parts of the circuit using techniques such as Kirchhoff's laws.