A ball is thrown vertically upward. It has a speed of 10 m/s when it has reached 0.5h. What is 'h'?

(i) According to the equation of motion under gravity v2 − u2 = 2gs  Where,  u = Initial velocity of the ball  v = Final velocity of the ball  s = Height achieved by...

According to the equation of motion under gravity v2 − u2 = 2gs  Where,  u = Initial velocity of the stone = 40 m/s  v = Final velocity of the stone = 0...

(a) Time of ascent is equal to the time of descent. The ball takes a total of 6 s for its upward and downward journey.  Hence, it has taken 3 s...

According to the law of conservation, energy can neither be created nor be destroyed but can transform from one form to another.  Therefore, K.E. Lost by the ball = P.E. gained...

Law of conservation of momentum is applicable to isolated system (no external force is applied). In this case, the change in velocity is due to the gravitational force of earth.

A body is thrown vertically upward with velocity u, the greatest height h to which it will rise is,  (b) u2 /2g

Solution: H1 =10 m, v1 =? Loss of energy =40% H2 =? On striking the floor, K.E = P.E ½ mv12 = mg H1 V1 = ?(2gH1)= ?( 2x9.8x10) V1= ?196= 14 m/s As the body loses 40% of its energy, final...

(a) along west

The correct answer is (c) vA = vB  Explanation: The ball 'A' thrown vertically upward will return back to the initial point with the same thrown speed but its direction will be downwards....