maximum height reached by a bullet fired vertically upward with a speed equal to 50% if the escape velocity from earth's surface is (R is radius of earth):

Maximum height reached by a rocket fired with a speed equal to 50% of the escape velocity from earth's surface is:

Maximum height reached by a rocket fired with a speed equal to 50% of the escape velocity from earth's surface is:

Maximum height reached by a rocket fired with a speed equal to "50%" of the escape velocity from earth's surface is given by R/x" .Calculate value of X? Where "R" is radius of earth.

What is the maximum height attained by a body projected with a velocity equal to one- third of the escape velocity from the surface of the earth? (Radius of the earth=R)

What is the maximum height attained by a body projected with a velocity equal to one- third of the escape velocity from the surface of the earth? (Radius of the earth=R)

The escape velocity from the surface of the earth is (where R_(E) is the radius of the earth )

The escape velocity from the surface of the earth is (where R_(E) is the radius of the earth )

A ball is thrown vertically upwards with a velocity equal to half the escape velocity from the surface of the earth. The ball rises to a height h above the surface of the earth. If the radius of the earth is R, then the ratio h/R is

A body is projected vertically upwards from the surface of the earth with a velocity equal to half of escape velocity of the earth. If R is radius of the earth, maximum height attained by the body from the surface of the earth is

A body is projected vertically upwards from the surface of the earth with a velocity equal to half of escape velocity of the earth. If R is radius of the earth, maximum height attained by the body from the surface of the earth is