The planets with radii R1 and R2 have densities ρ1, ρ2 respectively. Their atmospheric pressure is p1 and p2 respectively. Therefore, the ratio of masses of their atmospheres, neglecting variation of g within the limits of the atmosphere is
A thin symmertical double convex lens of refractive index μ2 = 1.5 is placed between a medium of refractive index μ1 = 1.4 to the left and another medium of refractive index μ3 = 1.6 to the right. Then, the system behaves as
a convex lens
a concave lens
a glass plate
a convexo-concave lens
The escape velocity for the earth is 11.2 km/sec. The mass of another planet 100 times mass of earth and its radius is 4 times radius of the earth. The escape velocity for the planet is
56.0 km/sec
280 km/sec
112 km/sec
56 km/sec
A ball is thrown from height 'h' and another from '2h'. The ratio of time taken by the two balls to reach ground is
2:1
1:2
A ball is thrown upwards, it takes 4sec to reach back to the ground. Find its initial velocity
30ms-1
10ms-1
40ms-1
20ms-1
Acceleration due to gravity at earth's surface is 'g'ms-2 . Find the effective value of gravity at a height of 32 km from sea level (Re=6400km)
0.5 gms-2
0.99 gms-2
1.01 gms-2
0.90 gms-2
B.
0.99 gms-2
For height 'h' above the earth's surface
Near earth's surface, time period of a satelliteis 4 hrs. Find its time period at height '4R' from the centre of earth
32 hrs
8hrs
16hrs
The earth of mass =6×1024 kg revolves around the sun with an angular velocity of 2×10-7 rad/s in a circular orbit of radius 1.5×108 km. The force exerted by the sun on earth is
6×1019 N
18×1025 N
36×1021 N
27×1039 N