Which of the following is true when applying Kirchhoff's Rules? O A. The algebraic sum of all currents leaving/entering a junction as well as the algebraic sum of potential differences in a loop must be equal to zero. O B. In writing KVR equations, current flowing through a resistor always contribute a negative IR term, where is the branch current, and is the resistance value. O C. When assuming branch current directions, a negative value indicates that current cannot flow in that branch. O D. The number of KCR equations to be used in the solution should be equal to the total number of junctions.
Which of the following is true when applying Kirchhoff's Rules? O A. The algebraic sum of all currents leaving/entering a junction as well as the algebraic sum of potential differences in a loop must be equal to zero. O B. In writing KVR equations, current flowing through a resistor always contribute a negative IR term, where is the branch current, and is the resistance value. O C. When assuming branch current directions, a negative value indicates that current cannot flow in that branch. O D. The number of KCR equations to be used in the solution should be equal to the total number of junctions.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter17: Current And Resistance
Section: Chapter Questions
Problem 22P: The human body can exhibit a wide range of resistances to current depending on the path of the...
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![Which of the following is true when applying Kirchhoff's Rules?
O A. The algebraic sum of all currents leaving/entering a junction as well as the algebraic sum of potential differences in a loop must be equal to zero.
O B. In writing KVR equations, current flowing through a resistor always contribute a negative IR term, where
the branch current, and is the resistance value.
O C. When assuming branch current directions, a negative value indicates that current cannot flow in that branch.
O D. The number of KCR equations to be used in the solution should be equal to the total number of junctions.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F209a45b1-3674-4b26-9604-b6d17d508a1a%2Fc4eb80cb-863f-40b9-9e84-1dee1afce6a2%2Fqtmweh_processed.png&w=3840&q=75)
Transcribed Image Text:Which of the following is true when applying Kirchhoff's Rules?
O A. The algebraic sum of all currents leaving/entering a junction as well as the algebraic sum of potential differences in a loop must be equal to zero.
O B. In writing KVR equations, current flowing through a resistor always contribute a negative IR term, where
the branch current, and is the resistance value.
O C. When assuming branch current directions, a negative value indicates that current cannot flow in that branch.
O D. The number of KCR equations to be used in the solution should be equal to the total number of junctions.
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