# 1. Given the circuit in Figure A.6, Starting at point A going clockwise write the Kirchhoff Voltage Law(KVL) loop equation for a circuit clockwise. Now repeat the calculation for an counter clockwise loop starting at point A. Assume that the current I is in the direction shown. R1 R2 Figure A.6: Figure for Question #1 2. Given the circuit in Figure A.7, write the Kirchhoff current Law(KCL) for node A. Write the three KVL equations for the three loops in the circuit. Do not solve for any current Equations. Remember you only need 3 of the four equations to solve for the currents. 3. Given the circuit in Figure A.8, write the KCL for node A. Write the three KVL equations for the three loops in the circuit. Do not solve for any of the Currents. Remember you only need 3 of the four equations to solve for the currents. 4. Find a length of a copper wire that has a resistance of 256.02 with a circular cross sectional radius of r = 0.0100m. R1 R2 R3 Figure A.7: Figure for Question #2 R1 R2 Figure A.8: Figure for Question #3

Question

### Want to see this answer and more?

Experts are waiting 24/7 to provide step-by-step solutions in as fast as 30 minutes!*

*Response times may vary by subject and question complexity. Median response time is 34 minutes for paid subscribers and may be longer for promotional offers.
Tagged in
Science
Physics

### Current Electricity

Transcribed Image Text

1. Given the circuit in Figure A.6, Starting at point A going clockwise write the Kirchhoff Voltage Law(KVL) loop equation for a circuit clockwise. Now repeat the calculation for an counter clockwise loop starting at point A. Assume that the current I is in the direction shown. R1 R2 Figure A.6: Figure for Question #1 2. Given the circuit in Figure A.7, write the Kirchhoff current Law(KCL) for node A. Write the three KVL equations for the three loops in the circuit. Do not solve for any current Equations. Remember you only need 3 of the four equations to solve for the currents. 3. Given the circuit in Figure A.8, write the KCL for node A. Write the three KVL equations for the three loops in the circuit. Do not solve for any of the Currents. Remember you only need 3 of the four equations to solve for the currents. 4. Find a length of a copper wire that has a resistance of 256.02 with a circular cross sectional radius of r = 0.0100m.

R1 R2 R3 Figure A.7: Figure for Question #2 R1 R2 Figure A.8: Figure for Question #3