Wheatstone bridge -- Why set all 4 resistances equal?

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The Wheatstone bridge achieves maximum sensitivity when all four resistances (A, B, C, and D) are equal due to the balance condition A/B = C/D, which minimizes the current through the galvanometer. This balance leads to a situation where small changes in resistance produce the largest changes in current, enhancing sensitivity. The sensitivity can be mathematically defined as the derivative of current with respect to any resistance, indicating that equal resistances yield optimal sensitivity. By analyzing the system of equations derived from the sensitivity definition, it becomes clear that equal values provide the best performance. Thus, maintaining equal resistances is crucial for achieving high sensitivity in Wheatstone bridge applications.
arvindsharma
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Can someone explain me,why Wheatstone bridge is most sensitive when all four resistances say A,B,C and D are equal?as far as i know condition for Wheatstone Bridge is A/B=C/D.
 
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Wheatstone bridges used to employ a galvanometer as a null detector.

Solve the bridge for current through the galvanometer ...
 
arvindsharma said:
Can someone explain me,why Wheatstone bridge is most sensitive when all four resistances say A,B,C and D are equal?as far as i know condition for Wheatstone Bridge is A/B=C/D.

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Recipe:

From theoretical considerations of the bridge circuit, current through the ideal galvanometer can be understand as function of 4 variables:
IAC=V⋅f(R1,R2,R3,R4)​
Definition of the sensitivity is:
S=dIAC/dRx
where Rx can stand for any of R1,R2,R3 or R4.

Say Rx=R4 and given the condition of the balance R4=R2⋅R3/R1, one searches for the stationary points of multivariable function S by solving the system:

∂S/∂R1=0
∂S/∂R2=0
∂S/∂R3=0
...​
 
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You can vary the thing and still get good results. i.e. the right leg has the same ratio as the left leg is good and sufficient.

To see why the system works better with equal values, find di / dRtest (i in galvenometer) as a function of the values with one value, Rtest set. Then set di/dR to zero to find the maximum sensitivity...
 
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