JEE MAIN - Physics (2021 - 26th February Morning Shift - No. 19)
Find the gravitational force of attraction between the ring and sphere as shown in the diagram, where the plane of the ring is perpendicular to the line joining the centres. If $$\sqrt 8 $$R is the distance between the centres of a ring (of mass 'm') and a sphere (mass 'M') where both have equal radius 'R'.
_26th_February_Morning_Shift_en_19_1.png)
$${{2\sqrt 2 } \over 3}.{{GMm} \over {{R^2}}}$$
$${{\sqrt 8 } \over 9}.{{GmM} \over R}$$
$${{\sqrt 8 } \over {27}}.{{GmM} \over {{R^2}}}$$
$${1 \over {3\sqrt 8 }}.{{GMm} \over {{R^2}}}$$
Wyjaśnienie
_26th_February_Morning_Shift_en_19_2.png)
Force on sphere by the ring,
$$F = ME = M\left( {{{Gm\sqrt {8R} } \over {{{\left( {{R^2} + {{(\sqrt 8 R)}^2}} \right)}^{3/2}}}}} \right)$$
$$F = {{GMm\sqrt 8 R} \over {{{\left( {9{R^2}} \right)}^{3/2}}}} = {{2\sqrt 2 GmM} \over {{{\left( {9{R^2}} \right)}^{3/2}}}}$$
$$ = {{2\sqrt 2 GmM} \over {27{R^2}}}$$
$$F = {{\sqrt 8 GMm} \over {27{R^2}}}$$