269206
The initial and final temperatures of a liquid are measured to be\((67.7 \pm 0.2)^{\circ} \mathrm{c}\) and \((76.3 \pm 0.3)^{0} \mathrm{c}\) then rise in temperature with error limit is
1 \((8.6 \pm 0.2)^{\circ} \mathrm{C}\)
2 \((8.6 \pm 0.3)^{0} \mathrm{C}\)
3 \((8.6 \pm 0.5)^{0} \mathrm{C}\)
4 \((8.6 \pm 0.6)^{0} \mathrm{C}\)
Explanation:
\(\Delta t=t_{2}-t_{1}\)
Units and Measurements
269207
Less accurate of the four options given below
1 9.27
2 41
3 1.01
4 \(9.00 \times 10^{0}\)
Explanation:
Less no. of significant figures represent less accuracy.
Units and Measurements
269227
The error in the measurement of length of a simple pendulum is\(0.1 \%\) and error in the time period is \(2 \%\). The possible maximum error in the quantity having dimensional formula \(L T^{-2}\) is
269228
Thelength of a cylinder is measured as \(5 \mathrm{~cm}\) using a vernier calipers of least count \(0.1 \mathrm{~mm}\). The percentage error in the measured length is nearly
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Units and Measurements
269206
The initial and final temperatures of a liquid are measured to be\((67.7 \pm 0.2)^{\circ} \mathrm{c}\) and \((76.3 \pm 0.3)^{0} \mathrm{c}\) then rise in temperature with error limit is
1 \((8.6 \pm 0.2)^{\circ} \mathrm{C}\)
2 \((8.6 \pm 0.3)^{0} \mathrm{C}\)
3 \((8.6 \pm 0.5)^{0} \mathrm{C}\)
4 \((8.6 \pm 0.6)^{0} \mathrm{C}\)
Explanation:
\(\Delta t=t_{2}-t_{1}\)
Units and Measurements
269207
Less accurate of the four options given below
1 9.27
2 41
3 1.01
4 \(9.00 \times 10^{0}\)
Explanation:
Less no. of significant figures represent less accuracy.
Units and Measurements
269227
The error in the measurement of length of a simple pendulum is\(0.1 \%\) and error in the time period is \(2 \%\). The possible maximum error in the quantity having dimensional formula \(L T^{-2}\) is
269228
Thelength of a cylinder is measured as \(5 \mathrm{~cm}\) using a vernier calipers of least count \(0.1 \mathrm{~mm}\). The percentage error in the measured length is nearly
269206
The initial and final temperatures of a liquid are measured to be\((67.7 \pm 0.2)^{\circ} \mathrm{c}\) and \((76.3 \pm 0.3)^{0} \mathrm{c}\) then rise in temperature with error limit is
1 \((8.6 \pm 0.2)^{\circ} \mathrm{C}\)
2 \((8.6 \pm 0.3)^{0} \mathrm{C}\)
3 \((8.6 \pm 0.5)^{0} \mathrm{C}\)
4 \((8.6 \pm 0.6)^{0} \mathrm{C}\)
Explanation:
\(\Delta t=t_{2}-t_{1}\)
Units and Measurements
269207
Less accurate of the four options given below
1 9.27
2 41
3 1.01
4 \(9.00 \times 10^{0}\)
Explanation:
Less no. of significant figures represent less accuracy.
Units and Measurements
269227
The error in the measurement of length of a simple pendulum is\(0.1 \%\) and error in the time period is \(2 \%\). The possible maximum error in the quantity having dimensional formula \(L T^{-2}\) is
269228
Thelength of a cylinder is measured as \(5 \mathrm{~cm}\) using a vernier calipers of least count \(0.1 \mathrm{~mm}\). The percentage error in the measured length is nearly
269206
The initial and final temperatures of a liquid are measured to be\((67.7 \pm 0.2)^{\circ} \mathrm{c}\) and \((76.3 \pm 0.3)^{0} \mathrm{c}\) then rise in temperature with error limit is
1 \((8.6 \pm 0.2)^{\circ} \mathrm{C}\)
2 \((8.6 \pm 0.3)^{0} \mathrm{C}\)
3 \((8.6 \pm 0.5)^{0} \mathrm{C}\)
4 \((8.6 \pm 0.6)^{0} \mathrm{C}\)
Explanation:
\(\Delta t=t_{2}-t_{1}\)
Units and Measurements
269207
Less accurate of the four options given below
1 9.27
2 41
3 1.01
4 \(9.00 \times 10^{0}\)
Explanation:
Less no. of significant figures represent less accuracy.
Units and Measurements
269227
The error in the measurement of length of a simple pendulum is\(0.1 \%\) and error in the time period is \(2 \%\). The possible maximum error in the quantity having dimensional formula \(L T^{-2}\) is
269228
Thelength of a cylinder is measured as \(5 \mathrm{~cm}\) using a vernier calipers of least count \(0.1 \mathrm{~mm}\). The percentage error in the measured length is nearly
