A projectile of mass `m` is fired from the surface of the earth at an angle `alpha = 60^(@)` from the vertical. The initial speed `upsilon_(0)` is equal to `sqrt((GM_(e))/(R_(e))`. How high does the projectile rise ? Neglect air resistance and the earth's rotation.

A projectile is fired from surface of earth at 30^(@) above horizontal with speed u=sqrt((GM_(c))/(R)) where M_(c) is mass of earth R is radius of earth Find maximum height of the projectile above earth surface

A projectile is to be launched from the surface of the earth so as to escape the solar system. Consider the gravitational force on the projectile due to the earth and the sun nly. The projectile is projected perpendicular to the radius vector of the earth relative to the centre of the sun in the direction of motion of the earth. Find the minimum speed of projection relative to the earth so that the projectile escapes out of the solar system. Neglect rotation of the earth. mass if the sum M_(s)2xx10^(30)kg, Mass of the earth M_(e)=6.4xx10^(24)kg Radius if the earth R_(e)=6.4xx10^(6)m, Earth- Sun distence r=1.5xx10^(11)m

A rocket of mass M is launched vertically from the surface of the earth with an initial speed V= sqrt((gR)/(2)) . Assuming the radius of the earth to be R and negligible air resistance, the maximum height attained by the rocket above the surface of the earth is (R)/(X) where X is:

A projectile is fired from the surface of earth of radius R with a velocity k upsilon_(e) (where upsilon_(e) is the escape velocity from surface of earth and k lt 1) . Neglecting air resistance, the maximum height of rise from centre of earth is

A particle is fired vertically from the surface of the earth with a velocity kupsilon_(e) , where upsilon_(e) is the escape velocity and klt1 . Neglecting air resistance and assuming earth's radius as R_(e) . Calculated the height to which it will rise from the surface of the earth.

A projectile is fired vertically upwards from the surface of the earth with a velocity Kv_(e) , where v_(e) is the escape velocity and Klt1 .If R is the radius of the earth, the maximum height to which it will rise measured from the centre of the earth will be (neglect air resistance)

A particles is fired vertically from the surface of the earth with a velocity Kv_(e) , where u_(e) is the escape velcocity ans Klt 1 . Neglecting air resistance , calcualte the heightto which it will rise from the surface of the earth .(R= radius of the earth ).