A body is projected obliquely from the g...

A body is projected obliquely from the ground such that its horizontal range is maximum. If the change in its linear momentum, as it moves from half the maximum height to maximum height, is P, the change in its linear momentum as it travels from the point of projection to the landing point on the ground will be:

`sqrt(2)P`

`2sqrt(2) P`

Text Solution

Verified by Experts

The correct Answer is:

`p=(mv sin theta)/(sqrt(2)), p^(1) =2 mv sin theta`

Similar Questions

Explore conceptually related problems

A body is projected obliquely from the ground such that its horizontal range is maximum.If the change in its maximum height to maximum height, is P , the change in its linear momentum as it travels from the point of projection to the landing point on the ground will be

A body is projected with velocity u so that its horizontal range is twice the maximum height.The range is

A ball is projected from the ground with velocity u such that its range is maximum Then

Maximum height attained from the point of projection is:

A body is projected with velocity u such that in horizontal range and maximum vertical heights are samek.The maximum height is

An object is projected so that its horizontal range R is maximum. If the maximum height of projectile is H , find the value of H//R .

A body is projected with a speed (u) at an angle to the horizontal to have maximum range. What is its velocity at the highest point ?

A stone is projected vertically from the ground.It reaches the maximum height of 500m in 10 sec.After what time it will reach the ground from the maximum height reached?

Text Solution

Similar Questions

Recommended Questions