Let gravitation field in a space be given as `E = - (k//r)` If the reference point is a distance d where potential is `V_(1)` then relation for potential is .

In a certain region of space gravitational field is given by I = - (k//r) . Taking the reference point to be at r = r_(0) , with gravitational potential V = V_(0) , find the gravitational potential at distance r .

In a certain region of space, the gravitational field is given by -k//r , where r is the distance and k is a constant. If the gravitational potential for the gravitational potential V ?

If the gravitational field intensity at a point is given by g = (GM)/(r^(2.5)) . Then, the potential at a distance r is

If the gravitational field intensity at a point is given by g = (GM)/(r^(2.5)) . Then, the potential at a distance r is

In a certain region of space, the gravitational field is given by -(k)/(r) where r is the distance and k is a constant. If the gravitaional potential at r=r_(0) be V_(0) , then what is the expression for the gravitaional potential (V)-

In a certain region of space, the gravitational field is given by -(k)/(r) where r is the distance and k is a constant. If the gravitaional potential at r=r_(0) be V_(0) , then what is the expression for the gravitaional potential (V)-

In a certain region of space, the gravitational field is given by -(k)/(r) where r is the distance and k is a constant. If the gravitaional potential at r=r_(0) be V_(0) , then what is the expression for the gravitaional potential (V)-

Due to certain mass distribution, the gravitational field along X-axis is given as I = (K)/(r^(4)) (where K is a constant). Considering the value of gravitational potential to be zero at infinity, its value at a distance x will be