Calculating Voltmeter's Resistance

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The discussion revolves around calculating the resistance of a voltmeter connected to a 5 V battery, which reads 4.9 V when connected. The internal resistance of the battery is determined to be 0.5 Ω based on the current delivered with a 12 Ω load. Participants express confusion about how to account for the 0.1 V drop observed and whether the voltmeter's resistance is in series or parallel with the battery's internal resistance. It is clarified that the voltmeter's resistance must be treated as a load in series with the battery's internal resistance, and both scenarios (voltmeter and load resistance) can be analyzed separately to find the unknown resistance. The discussion emphasizes the importance of setting up equations for each circuit configuration to solve for the voltmeter's resistance accurately.
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Homework Statement



A battery is known to have an emf of 5 V, but when a particular voltmeter is
connected to it the reading is 4.9 V. With the voltmeter disconnected and a load
resistance of 12 Ω connected to the battery, a current of 0.4 A is delivered. What
is the resistance of the voltmeter?

Homework Equations







The Attempt at a Solution



Okay first of all i found that the internal resistance of the battery is 0.5 Ω .
since I = E/(R+r) .

But to find the meter's resistance is a bit confusing ...

Since their is a voltage drop of 0.1 V it means that the voltage drop across r and the voltage drop across Rv(voltmeter's resistance) should be equal to 0.1 V right ?

So Vr + Vx =0.1 ?

I have no idea ?! :S
 
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ZxcvbnM2000 said:

Homework Statement



A battery is known to have an emf of 5 V, but when a particular voltmeter is
connected to it the reading is 4.9 V. With the voltmeter disconnected and a load
resistance of 12 Ω connected to the battery, a current of 0.4 A is delivered. What
is the resistance of the voltmeter?

Homework Equations







The Attempt at a Solution



Okay first of all i found that the internal resistance of the battery is 0.5 Ω .
since I = E/(R+r) .

But to find the meter's resistance is a bit confusing ...

Since their is a voltage drop of 0.1 V it means that the voltage drop across r and the voltage drop across Rv(voltmeter's resistance) should be equal to 0.1 V right ?

So Vr + Vx =0.1 ?

I have no idea ?! :S

In the voltmeter measurement, what is that 0.1V dropping across... And what important info does knowing that give you...?
 
I think you can assume that the voltage that the voltmeter displays is the voltage across its own resistance.
 
Thank you for your answers.

So we can say that Vterminal = E - Ir ?

so 4.9 = 5 - Ir <=> 0.1 =Ir so the voltage drop across the battery's internal resistance is 0.1 V so this either means that the voltmeter has zero resistance or they are in parallel.Right ?
But if they are in parallel then all 5 volts should be available right ??!

Argh !
 
ZxcvbnM2000 said:
Thank you for your answers.

So we can say that Vterminal = E - Ir ?
Sure.
so 4.9 = 5 - Ir <=> 0.1 =Ir so the voltage drop across the battery's internal resistance is 0.1 V so this either means that the voltmeter has zero resistance or they are in parallel.Right ?
No, it means that the current is such that 0.1V is dropped across the internal resistance. It doesn't determine the voltmeter's resistance. If the leads of the voltmeter are connected across the battery terminals, then the voltmeter resistance must be in series with the internal resistance of the battery.

https://www.physicsforums.com/attachment.php?attachmentid=47633&stc=1&d=1337910519
But if they are in parallel then all 5 volts should be available right ??!

Argh !

They are not in parallel.

You have two circuits to consider. One has the voltmeter resistance as a load and the the other has 12 Ω as a load. You're given two resulting "measurements". Both situations have some common components. You should be able to write equations for each situation, each with one unknown value, and solve for the unknowns.
 

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