What is the Thevenin's Equivalent Circuit for a Given Linear Circuit?

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Homework Help Overview

The discussion revolves around finding the Thevenin's Equivalent Circuit for a given linear circuit. The original poster expresses difficulty in determining the Thevenin voltage and resistance, and poses several questions regarding the circuit analysis.

Discussion Character

  • Exploratory, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • The original poster attempts to clarify the meaning of the Thevenin voltage and current in relation to their linear equation. They also inquire about finding specific current values and the overall Thevenin equivalent circuit.

Discussion Status

Participants are engaged in clarifying the circuit setup and addressing the original poster's questions. Some have pointed out issues with the provided circuit sketch and have requested more details to facilitate understanding. There is an ongoing exploration of the Thevenin rule and its application to the problem.

Contextual Notes

There are indications of confusion regarding the circuit values and configuration, as well as a request for clearer sketches. The original poster's understanding of the Thevenin rule is noted as a point of focus for further discussion.

baby_1
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Homework Statement



8783645800_1408423836.jpg


The Attempt at a Solution



as you see I can't obtain Vt=(alpha)it+(Beta) that alpha is thevenin resistance and beta is Thevenin voltage.if there is no problem could you tell me
1-when we find vt or it value instead of their linear equation what does it man?
2-In above circuit can we find i1 value?
3-In above circuit what is Thevenin's Equivalent circuit?

Thanks
 
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Could you neatly sketch the circuit whose Thèvenin equivalent you are required to find? Also label it so there is a clear difference between 2 and Z. What is the symbol of a circle with a central arrow?
 
Hello
here is neatly sketch and I define the name of each source and the value is "2" (in Volt , Ohm,Amper)

7485121600_1408443572.jpg
 
What appears to be a short-circuit across the current source really is a short-circuit across the current source?

The values shown make no sense. There can be no "solution" here.

The arrangement with the addition of vt is feasible and has a solution, as you found.

It's not clear what this is about, though. Are there more details you can provide about the question?
 
Last edited:
Hello NascentOxygen
Thanks for your explanation.
It is just a circuit course problem and I want to know better the thevenin rule in this question
 
baby_1 said:
... I want to know better the thevenin rule in this question

And do you think that it will help that you have ignored NascentOxygen's questions?

In other words, you have to help us help you, otherwise we cannot.
 

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