An object falling thro ugh a fluid is observed to have accleration give by ` a = g - bv` where `g =` gravitational acceleration and b is constant. After a long time of release, it is observed to fall with constant speed. What must be the value of constant speed ?

An object falling through a fluid is observed to have acceleration given by a= g- bv where g= gravitational acceleration and (b) is constant. After a long time of rlease. It is observed to fall with constant speed. What must be the value of constant speed ?

An object falling through a fluid is observed to have acceleration given by a= g- bv where g= gravitational acceleration and (b) is constant. After a long time of rlease. It is observed to fall with constant speed. What must be the value of constant speed ?

A particle of mass 1 kg is released from rest at a point where gravitational potential is 5 J/kg. After some time, it passes through a point B with a speed of 1 m/s. What is the gravitational potential at B ?

A pigeon in flight experience a force of air resistance given by F=bv^(2) where v is the flight speed and b is a constant. What is the maximum speed of the pigeon if its power outup is P ?

If light passes near a massive object, the gravitational interaction causes a bending of the ray. This can be thought of as happening due to a change in the effective refractive index of the medium given by n( r) = 1+ 2 GM//rc^2 where r is the distance of the point consideration from the centre of the mass of the massive body, G is the universal gravitational constant, M the mass of the body and c the speed of light in vacuum. Considering a spherical object, find the deviation of the ray from the original path as it grazes the object.

Expression for time in terms of G (universal gravitational constant), h (Planck constant) and c (speed of light) is proportional to:

The motion of a body falling from rest in a resisting medium is described by the equation (dv)//(dt)=a-bv where a and b are constant . The velocity at any time t is given by

the speed of light c, gravitational constant G, and Planck’s constant h are taken as the fundamental units in a system. The dimension of time in this new system should be,

Passage X) A 2kg block hangs without vibrating at the bottom end of a spring with a force constant of 400 N/m. The top end of the spring is attached to the ceiling of an elevator car. The car is rising with an upward acceleration of 5m/s^(2) when the acceleration suddenly ceases at t=0 and the car moves upward with constant speed. (g=10m/ s^(2) ) What is the angular frequency of oscillation of the block after the acceleration ceases?

An object falling from rest in air is subject not only to the gravitational force but also to air resistance. Assume that the air resistance is proportional to the velocity with constant of proportionality as k >0 , and acts in a direction opposite to motion (g=9. 8 m/(s^2))dot Then velocity cannot exceed. ( a ) 9.8m//k" "m//s (b) 98//km" "m//s (c) k/g m/s (d) None of these