Galvanometer has a coil with a resistance

AI Thread Summary
A galvanometer with a coil resistance of 81 Ohms and a current of 131 mA achieves full-scale deflection. To convert it into a voltmeter for a 40 V full scale, a series resistor is required, but initial calculations yielded a negative value due to incorrect current input. The correct current for calculations is 0.131 A, leading to a voltage drop across the galvanometer of 10.61 V. For converting the galvanometer into an ammeter for 1.1 A full scale, the necessary shunt resistor value was derived, resulting in a resistance of approximately 10.95 Ohms. The calculations were clarified and corrected, leading to successful results.
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part 1: A galvanometer has a coil with a resistance of 81 W. A current of 131 mA causes full scale deflection. Calculate the value of the series resistor that is required in order to use the galvanometer as a Voltmeter with 40 V full scale.

so to make a voltmeter, the galvanometer and resistor have to be in series. so for the equivilant resistor i would have R+Rg=Reg

so by kirchhoffs rules (loop rule) i conclude that the V=0 for the entire loop

Vo-ReqI=0
Vo=(R+Rg)I
40=(R+81)1.31

and with this i am getting a negitve number for R..please help

part 2: What shunt resistor is necessary to convert the galvanometer into an Ammeter which deflects full scale for 1.1 A?

so for an ammeter, the resistor and galvanometer are in parallel
Req=(1/R+1/Rg)^-1

and i am going to use the loop rule again.

Vo=RegI
Vo=I(1/R+1/Req)^-1
40=1.1(1/R+1/81)^-1

and i also get a negtive number...please help
 
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Two things on part 1. First, when you cut and paste in the text that has character set formatting, it changed the 81 Ohms in the first sentence to 81 W ("W" is the Ohms symbol in the Symbol character set for Windows). If you want to keep it Ohms, use latex like this:

81 \Omega

You can press the Quote button on this post to see the format of the latex for the line above.

Second, 131mA = 0.131 A. You used 1.31 in your 3rd equation for some reason, instead of 0.131.

Does that get you going again?
 
ok...i got the first one...but i am still confused on the second part


where am i going wrong?
 
On part 2, when 131mA is going through the galvanometer's resistance, how much voltage is that across the galvanometer? And to make the full 1.1A, that's 131mA plus how much extra current through the shunt resistor? And that much current at the previously calculated voltage implies that the shunt resistor is what value of resistance?

Please show us your work -- you're almost there!


EDIT -- fixed a typo of mine.
 
ok so the voltage drop across the galve. is = to the voltage drop across Rs

and Vg=IR=.131*81=10.61

so Vr=10.61=RI and that is 10.61=R(1.1-.131)=10.95 ohms
 
Looks good to me. Good job!
 
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