269026 The mathematical operation in which the accuracy is limited to least accurate term is

269027 The time period of a seconds pendulum is measured repeatedly forthreetimes by two stop watches \(A, B\). If the readings are asfollows, then
\begin{tabular}{lll}
S.NO & A & B \\
(1)& \(2.01 \mathrm{sec}\) & \(2.56 \mathrm{sec}\) \\
(2)& 2.10 & \(2.55 \mathrm{sec}\) \\
(3)& \(1.98 \mathrm{sec}\) & \(2.57 \mathrm{sec}\)
\end{tabular}

269028 If \(Y=a+b\), the maximum percentage error in the measurement of \(Y\) will be

269029 If \(Y=a-b\),themaximum percentage error in the measurement of \(Y\) will be

269026 The mathematical operation in which the accuracy is limited to least accurate term is

269027 The time period of a seconds pendulum is measured repeatedly forthreetimes by two stop watches \(A, B\). If the readings are asfollows, then
\begin{tabular}{lll}
S.NO & A & B \\
(1)& \(2.01 \mathrm{sec}\) & \(2.56 \mathrm{sec}\) \\
(2)& 2.10 & \(2.55 \mathrm{sec}\) \\
(3)& \(1.98 \mathrm{sec}\) & \(2.57 \mathrm{sec}\)
\end{tabular}

269028 If \(Y=a+b\), the maximum percentage error in the measurement of \(Y\) will be

269029 If \(Y=a-b\),themaximum percentage error in the measurement of \(Y\) will be

269026 The mathematical operation in which the accuracy is limited to least accurate term is

269027 The time period of a seconds pendulum is measured repeatedly forthreetimes by two stop watches \(A, B\). If the readings are asfollows, then
\begin{tabular}{lll}
S.NO & A & B \\
(1)& \(2.01 \mathrm{sec}\) & \(2.56 \mathrm{sec}\) \\
(2)& 2.10 & \(2.55 \mathrm{sec}\) \\
(3)& \(1.98 \mathrm{sec}\) & \(2.57 \mathrm{sec}\)
\end{tabular}

269028 If \(Y=a+b\), the maximum percentage error in the measurement of \(Y\) will be

269029 If \(Y=a-b\),themaximum percentage error in the measurement of \(Y\) will be

269026 The mathematical operation in which the accuracy is limited to least accurate term is

269027 The time period of a seconds pendulum is measured repeatedly forthreetimes by two stop watches \(A, B\). If the readings are asfollows, then
\begin{tabular}{lll}
S.NO & A & B \\
(1)& \(2.01 \mathrm{sec}\) & \(2.56 \mathrm{sec}\) \\
(2)& 2.10 & \(2.55 \mathrm{sec}\) \\
(3)& \(1.98 \mathrm{sec}\) & \(2.57 \mathrm{sec}\)
\end{tabular}

269028 If \(Y=a+b\), the maximum percentage error in the measurement of \(Y\) will be

269029 If \(Y=a-b\),themaximum percentage error in the measurement of \(Y\) will be