266289 A compound microscope has an eye piece of focal length 10 cm and objective of focal length 4 cm . Calculate the magnification, if an object is kept at adistancec of 5 cm from the objective so that final image is formed at the least distance vision ( 20 cm)

266268 Statementl: The total charge on capacitor is zero. Statement II : S.I. unit of capacitance is \(\mathbf{1}\) faraday.

266269 Column Igives certain physical terms associated with flow of current through a metallic conductor. Column II gives some mathematical relations involving electrical quantities. Match column I and column II with appropriate relations: |Column I|Column II| |-----|----| |(A) Drift velocity|P. \(\frac{m}{\pi e^2 \rho}\)| |(B) Electricalresistivity |Q. neV/| |(C) Relaxation period|R. \(\frac{\mathrm{eE}}{\mathrm{m}} \mathrm{t}\)| |(D) Current density|S. \(\frac{E}{J}\)|

266270 A thermodynamic system is taken through the cycle ABCD as shown in figure. Heat rejected by the gas during the cycle is:

266271 Two particles \(A\) and \(B\) are moving in uniform dircular motion in concentric circles of radius \(\mathrm{r}_{\mathrm{a}}\) and \(r_{\mathrm{B}}\) with speed \(v_{\mathrm{s}}\) and \(v_{\mathrm{e}}\) respectively. The time period of rotation is the same. The ratio of angular speed of \(A\) to that of \(B\) will be:

266289 A compound microscope has an eye piece of focal length 10 cm and objective of focal length 4 cm . Calculate the magnification, if an object is kept at adistancec of 5 cm from the objective so that final image is formed at the least distance vision ( 20 cm)

266268 Statementl: The total charge on capacitor is zero. Statement II : S.I. unit of capacitance is \(\mathbf{1}\) faraday.

266269 Column Igives certain physical terms associated with flow of current through a metallic conductor. Column II gives some mathematical relations involving electrical quantities. Match column I and column II with appropriate relations: |Column I|Column II| |-----|----| |(A) Drift velocity|P. \(\frac{m}{\pi e^2 \rho}\)| |(B) Electricalresistivity |Q. neV/| |(C) Relaxation period|R. \(\frac{\mathrm{eE}}{\mathrm{m}} \mathrm{t}\)| |(D) Current density|S. \(\frac{E}{J}\)|

266270 A thermodynamic system is taken through the cycle ABCD as shown in figure. Heat rejected by the gas during the cycle is:

266271 Two particles \(A\) and \(B\) are moving in uniform dircular motion in concentric circles of radius \(\mathrm{r}_{\mathrm{a}}\) and \(r_{\mathrm{B}}\) with speed \(v_{\mathrm{s}}\) and \(v_{\mathrm{e}}\) respectively. The time period of rotation is the same. The ratio of angular speed of \(A\) to that of \(B\) will be:

266289 A compound microscope has an eye piece of focal length 10 cm and objective of focal length 4 cm . Calculate the magnification, if an object is kept at adistancec of 5 cm from the objective so that final image is formed at the least distance vision ( 20 cm)

266268 Statementl: The total charge on capacitor is zero. Statement II : S.I. unit of capacitance is \(\mathbf{1}\) faraday.

266269 Column Igives certain physical terms associated with flow of current through a metallic conductor. Column II gives some mathematical relations involving electrical quantities. Match column I and column II with appropriate relations: |Column I|Column II| |-----|----| |(A) Drift velocity|P. \(\frac{m}{\pi e^2 \rho}\)| |(B) Electricalresistivity |Q. neV/| |(C) Relaxation period|R. \(\frac{\mathrm{eE}}{\mathrm{m}} \mathrm{t}\)| |(D) Current density|S. \(\frac{E}{J}\)|

266270 A thermodynamic system is taken through the cycle ABCD as shown in figure. Heat rejected by the gas during the cycle is:

266271 Two particles \(A\) and \(B\) are moving in uniform dircular motion in concentric circles of radius \(\mathrm{r}_{\mathrm{a}}\) and \(r_{\mathrm{B}}\) with speed \(v_{\mathrm{s}}\) and \(v_{\mathrm{e}}\) respectively. The time period of rotation is the same. The ratio of angular speed of \(A\) to that of \(B\) will be:

266289 A compound microscope has an eye piece of focal length 10 cm and objective of focal length 4 cm . Calculate the magnification, if an object is kept at adistancec of 5 cm from the objective so that final image is formed at the least distance vision ( 20 cm)

266268 Statementl: The total charge on capacitor is zero. Statement II : S.I. unit of capacitance is \(\mathbf{1}\) faraday.

266269 Column Igives certain physical terms associated with flow of current through a metallic conductor. Column II gives some mathematical relations involving electrical quantities. Match column I and column II with appropriate relations: |Column I|Column II| |-----|----| |(A) Drift velocity|P. \(\frac{m}{\pi e^2 \rho}\)| |(B) Electricalresistivity |Q. neV/| |(C) Relaxation period|R. \(\frac{\mathrm{eE}}{\mathrm{m}} \mathrm{t}\)| |(D) Current density|S. \(\frac{E}{J}\)|

266270 A thermodynamic system is taken through the cycle ABCD as shown in figure. Heat rejected by the gas during the cycle is:

266271 Two particles \(A\) and \(B\) are moving in uniform dircular motion in concentric circles of radius \(\mathrm{r}_{\mathrm{a}}\) and \(r_{\mathrm{B}}\) with speed \(v_{\mathrm{s}}\) and \(v_{\mathrm{e}}\) respectively. The time period of rotation is the same. The ratio of angular speed of \(A\) to that of \(B\) will be:

266289 A compound microscope has an eye piece of focal length 10 cm and objective of focal length 4 cm . Calculate the magnification, if an object is kept at adistancec of 5 cm from the objective so that final image is formed at the least distance vision ( 20 cm)

266268 Statementl: The total charge on capacitor is zero. Statement II : S.I. unit of capacitance is \(\mathbf{1}\) faraday.

266269 Column Igives certain physical terms associated with flow of current through a metallic conductor. Column II gives some mathematical relations involving electrical quantities. Match column I and column II with appropriate relations: |Column I|Column II| |-----|----| |(A) Drift velocity|P. \(\frac{m}{\pi e^2 \rho}\)| |(B) Electricalresistivity |Q. neV/| |(C) Relaxation period|R. \(\frac{\mathrm{eE}}{\mathrm{m}} \mathrm{t}\)| |(D) Current density|S. \(\frac{E}{J}\)|

266270 A thermodynamic system is taken through the cycle ABCD as shown in figure. Heat rejected by the gas during the cycle is:

266271 Two particles \(A\) and \(B\) are moving in uniform dircular motion in concentric circles of radius \(\mathrm{r}_{\mathrm{a}}\) and \(r_{\mathrm{B}}\) with speed \(v_{\mathrm{s}}\) and \(v_{\mathrm{e}}\) respectively. The time period of rotation is the same. The ratio of angular speed of \(A\) to that of \(B\) will be: