Value of the shunt resistor in this circuit

AI Thread Summary
The discussion focuses on calculating the value of a shunt resistor in a circuit using Kirchhoff's laws. Participants clarify the relationship between current through the ammeter and the shunt, emphasizing that the current splits at the junction. The correct resistance for the shunt is determined to be 0.25 ohms, based on the current values provided. A more efficient method for calculating the resistance is suggested, highlighting the relationship between current and resistance. Overall, the conversation revolves around improving understanding and calculation methods for shunt resistor values in parallel circuits.
Bolter
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Homework Statement
Find value of shunt resistor in circuit
Relevant Equations
Ohms law
Here are a couple of questions that I have been trying to answer and had a go at it.
Not sure if I answered some incorrectly so was hoping to get some guidance

Screenshot 2020-02-08 at 21.58.52.png

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Screenshot 2020-02-08 at 21.59.02.png

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Screenshot 2020-02-08 at 21.59.11.png

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Screenshot 2020-02-08 at 21.59.21.png


For this one I have tried to make use of Kirchhoff's 2nd law to help me, but this is what I have ended up with when using it

thumbnail_IMG_3822.jpg


Thanks!
 
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Your work on the first three looks fine.
In the last one, isn't Ic the current through the ammeter? That is not 1A.
Seems to me that the set up is the same as in the third problem, so you can use the same method.
 
Moderator's note: Please post only a single problem per thread. This post should have been broken up into four separate threads.
 
Last edited:
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haruspex said:
Your work on the first three looks fine.
In the last one, isn't Ic the current through the ammeter? That is not 1A.
Seems to me that the set up is the same as in the third problem, so you can use the same method.

Thanks I have realized that voltage across the shunt and coil would be the same as they are connected in parallel. And that current would also split too at the junction.

I did this and get a resistance of 0.25 ohms for the shunt

thumbnail_IMG_3823.jpg
 
gneill said:
Moderator's note: Please post only a single problem per thread. This post should have been broken up into four separate threads.

My apologies, I'll try not to do this again next time
 
Bolter said:
Thanks I have realized that voltage across the shunt and coil would be the same as they are connected in parallel. And that current would also split too at the junction.

I did this and get a resistance of 0.25 ohms for the shunt

View attachment 256866
Yes, but you can get there more quickly. You know that 1A-200mA=800mA is going through the shunt. That's 4 times the current for the same voltage, so a quarter of the resistance.
 
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haruspex said:
Yes, but you can get there more quickly. You know that 1A-200mA=800mA is going through the shunt. That's 4 times the current for the same voltage, so a quarter of the resistance.

Yes this is much more efficient way of doing now that I can see :)
 
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