Asked by Bernadine Franklin on May 22, 2024
Verified
Circuit networks can be reduced to a single current source and a single parallel resistance. This conversion is done in accordance with _____.
A) Thevenin's theorem
B) Norton's theorem
C) the superposition theorem
D) Kirchhoff's laws
Norton's Theorem
An electrical theorem that simplifies complex circuits into equivalent circuits made of a single current source and parallel resistance.
Parallel Resistance
The overall resistance of resistors connected in parallel, calculated in a way that the total resistance is always less than the smallest individual resistor's resistance in the circuit.
- Explain how Thevenin's and Norton's theorems are employed in the simplification of circuit networks.
- Distinguish among the diverse network theorems and laws relevant to analyzing circuits.
Verified Answer
MS
Mariah StrongMay 22, 2024
Final Answer :
B
Explanation :
Norton's theorem states that any linear electrical network with voltage and current sources and only resistances can be replaced at terminals A-B by an equivalent current source in parallel connection with an equivalent resistance.
Learning Objectives
- Explain how Thevenin's and Norton's theorems are employed in the simplification of circuit networks.
- Distinguish among the diverse network theorems and laws relevant to analyzing circuits.
Related questions
Solving Combination Circuits Includes a Step in Which You _____ ...
A Junction Point of Current Paths Is Often Called a ...
In a Combination Circuit, to Identify Series and Parallel Elements ...
A Series Circuit Has _____ Path(s) for Current Flow ...
A Combination Circuit Is a Circuit That Contains _____ ...