269229 The diameter of a wire as measured by a screw gauge was found to be\(1.002 \mathrm{~cm}\), \(1.000 \mathrm{~cm}, 1.006 \mathrm{~cm}\), the absolute error in the first reading.

269230 Thenumber of particles crossing per unit area perpendicular to \(x\)-axis in unit time is \(N=-D\left(\frac{n_{2}-n_{1}}{x_{2}-x_{1}}\right)\) Where \(n_{1}\) and \(n_{2}\) are number of particles per unit volume for the value of \(x_{1}\) and \(x_{2}\) respectively. The dimension of diffusion constant \(D\) is

269231 Theexternal and internal diameters of a hollow cylinder are determined with vernier calipers and theresultsarerecorded as \((4.23 \pm 0.001) \mathrm{cm}\) and \((3.89 \pm 0.01) \mathrm{cm}\). Thethickness of thecylinder wall within thelimits of error is

269232 The density of a cubecan be measured by measuring its mass and the length of its side. If the maximum errors in the measurement of mass and length are \(3 \%\) and \(2 \%\) respectively, the maximum error in the measurement of the density of the cube is

269233 the diameter of a sphere is \(3.34 \mathrm{~m}\) C alculate its volume with due regard to significant figures ( in \(\mathrm{m}^{3}\) ).

269229 The diameter of a wire as measured by a screw gauge was found to be\(1.002 \mathrm{~cm}\), \(1.000 \mathrm{~cm}, 1.006 \mathrm{~cm}\), the absolute error in the first reading.

269230 Thenumber of particles crossing per unit area perpendicular to \(x\)-axis in unit time is \(N=-D\left(\frac{n_{2}-n_{1}}{x_{2}-x_{1}}\right)\) Where \(n_{1}\) and \(n_{2}\) are number of particles per unit volume for the value of \(x_{1}\) and \(x_{2}\) respectively. The dimension of diffusion constant \(D\) is

269231 Theexternal and internal diameters of a hollow cylinder are determined with vernier calipers and theresultsarerecorded as \((4.23 \pm 0.001) \mathrm{cm}\) and \((3.89 \pm 0.01) \mathrm{cm}\). Thethickness of thecylinder wall within thelimits of error is

269232 The density of a cubecan be measured by measuring its mass and the length of its side. If the maximum errors in the measurement of mass and length are \(3 \%\) and \(2 \%\) respectively, the maximum error in the measurement of the density of the cube is

269233 the diameter of a sphere is \(3.34 \mathrm{~m}\) C alculate its volume with due regard to significant figures ( in \(\mathrm{m}^{3}\) ).

269229 The diameter of a wire as measured by a screw gauge was found to be\(1.002 \mathrm{~cm}\), \(1.000 \mathrm{~cm}, 1.006 \mathrm{~cm}\), the absolute error in the first reading.

269230 Thenumber of particles crossing per unit area perpendicular to \(x\)-axis in unit time is \(N=-D\left(\frac{n_{2}-n_{1}}{x_{2}-x_{1}}\right)\) Where \(n_{1}\) and \(n_{2}\) are number of particles per unit volume for the value of \(x_{1}\) and \(x_{2}\) respectively. The dimension of diffusion constant \(D\) is

269231 Theexternal and internal diameters of a hollow cylinder are determined with vernier calipers and theresultsarerecorded as \((4.23 \pm 0.001) \mathrm{cm}\) and \((3.89 \pm 0.01) \mathrm{cm}\). Thethickness of thecylinder wall within thelimits of error is

269232 The density of a cubecan be measured by measuring its mass and the length of its side. If the maximum errors in the measurement of mass and length are \(3 \%\) and \(2 \%\) respectively, the maximum error in the measurement of the density of the cube is

269233 the diameter of a sphere is \(3.34 \mathrm{~m}\) C alculate its volume with due regard to significant figures ( in \(\mathrm{m}^{3}\) ).

269229 The diameter of a wire as measured by a screw gauge was found to be\(1.002 \mathrm{~cm}\), \(1.000 \mathrm{~cm}, 1.006 \mathrm{~cm}\), the absolute error in the first reading.

269230 Thenumber of particles crossing per unit area perpendicular to \(x\)-axis in unit time is \(N=-D\left(\frac{n_{2}-n_{1}}{x_{2}-x_{1}}\right)\) Where \(n_{1}\) and \(n_{2}\) are number of particles per unit volume for the value of \(x_{1}\) and \(x_{2}\) respectively. The dimension of diffusion constant \(D\) is

269231 Theexternal and internal diameters of a hollow cylinder are determined with vernier calipers and theresultsarerecorded as \((4.23 \pm 0.001) \mathrm{cm}\) and \((3.89 \pm 0.01) \mathrm{cm}\). Thethickness of thecylinder wall within thelimits of error is

269232 The density of a cubecan be measured by measuring its mass and the length of its side. If the maximum errors in the measurement of mass and length are \(3 \%\) and \(2 \%\) respectively, the maximum error in the measurement of the density of the cube is

269233 the diameter of a sphere is \(3.34 \mathrm{~m}\) C alculate its volume with due regard to significant figures ( in \(\mathrm{m}^{3}\) ).

269229 The diameter of a wire as measured by a screw gauge was found to be\(1.002 \mathrm{~cm}\), \(1.000 \mathrm{~cm}, 1.006 \mathrm{~cm}\), the absolute error in the first reading.

269230 Thenumber of particles crossing per unit area perpendicular to \(x\)-axis in unit time is \(N=-D\left(\frac{n_{2}-n_{1}}{x_{2}-x_{1}}\right)\) Where \(n_{1}\) and \(n_{2}\) are number of particles per unit volume for the value of \(x_{1}\) and \(x_{2}\) respectively. The dimension of diffusion constant \(D\) is

269231 Theexternal and internal diameters of a hollow cylinder are determined with vernier calipers and theresultsarerecorded as \((4.23 \pm 0.001) \mathrm{cm}\) and \((3.89 \pm 0.01) \mathrm{cm}\). Thethickness of thecylinder wall within thelimits of error is

269232 The density of a cubecan be measured by measuring its mass and the length of its side. If the maximum errors in the measurement of mass and length are \(3 \%\) and \(2 \%\) respectively, the maximum error in the measurement of the density of the cube is

269233 the diameter of a sphere is \(3.34 \mathrm{~m}\) C alculate its volume with due regard to significant figures ( in \(\mathrm{m}^{3}\) ).