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If the measurement errors in all the independent quantities are known, then it is possible to determine the error in any dependent quantity. This is done by the use of series expansion and truncating the expansion at the first power of the error. For example, consider the relation z=x/y. If the errors in x,y and z are Δx,Δy and Δz, respectively, then
z±Δz=x±Δxy±Δy=xy(1±Δxx)(1±Δyy)−1.
The series expansion for (1±Δyy)−1, to first power in Δy/y. is 1∓(Δy/y). The relative errors in independent variables are always added. So the error in z will be
Δz=z(Δxx+Δyy) .
The above derivation makes the assumption that Δx/x≪1,Δy/y≪1. Therefore, the higher powers of these quantities are neglected.
Consider the ratio r=(1−a)(1+a) to be determined by measuring a dimensionless quantity a. If the error in the measurement of a is Δa(Δaa<<1), then what is the error Δr in determining r?