Statement-I: Gravity holds the atmosphere around the earth.Statement-II: The dimensional formula....

Channel:
PW Solutions
Subscribers:
445,000
Published on ● Video Link: https://www.youtube.com/watch?v=d7d0HsM1_wk


Duration: 0:37
0 views
0

Statement-I: Gravity holds the atmosphere around the earth.Statement-II: The dimensional formula of gravitational fièld is same as that of acceleration due to gravity. šŸ“²PW App Link - https://bit.ly/YTAI_PWAP šŸŒPW Website - https://www.pw.live



Other Videos By PW Solutions


2024-06-29Assertion (A): A body becomes weightless at the centre of earth. Reason (R): As the distance fro....
2024-06-29Assertion (A): Gravitational field is zero both at the centre of earth and infinity.Reason \((\m....
2024-06-29Assertion (A): Gravitational force between two particles is negligibly small compared to the ele....
2024-06-29Assertion (A): Smaller the orbit of the planet around the sun, shorter is the time it takes to c....
2024-06-29Statement-I: If the density of the planet decreases by \(\mathrm{x} \%\), keeping the radius con....
2024-06-29Statement-I: All other planets except mercury and pluto revolve around the sun in almost circula....
2024-06-29Statement-I: Greater the height of the satellite, smaller is the orbital velocity.Statement-II: ....
2024-06-29Statement-I: Intensity of gravitational field inside a shell is not zero.Statement-II: Planets d....
2024-06-29Statement-I: The ratio of inertial mass to gravitational mass is 1 .Statement-II: Inertial mass ....
2024-06-29Let \(V\) and \(E\) denote the gravitational potential and gravitational field respectively at a....
2024-06-29Statement-I: Gravity holds the atmosphere around the earth.Statement-II: The dimensional formula....
2024-06-29 Match the column-I and column-II and select the correct option from the given codes. ....
2024-06-29Match the laws/physical quantities in Column-I with their corresponding formula/relation in Colu....
2024-06-29\(\mathrm{P}(\mathrm{r})\) is magnitude of physical quantity as a function of \(\mathrm{r}\) (di....
2024-06-29A body of mass ' \(m\) ' taken from the earth's surface to the height equal to twice the radius ....
2024-06-29Two bodies of masses \(\mathrm{m}_1\) and \(\mathrm{m}_2\) are initially at rest at infinite dis....
2024-06-29Infinite number of bodies, each of mass \(2 \mathrm{~kg}\) are situated on \(\mathrm{x}\)-axis a....
2024-06-29A rocket of mass \(M\) is launched vertically from the surface of the earth with an initial spee....
2024-06-29Two bodies of masses \(\mathrm{m}\) and \(\mathrm{M}\) are placed a distance \(d\) apart. The gr....
2024-06-29Two rings having masses \(M\) and \(2 M\), respectively, having same radius are placed coaxially....
2024-06-29A spherical planet has uniform density \(\frac{\pi}{2} \times 10^4 \mathrm{~kg} / \mathrm{m}^3\)....