A stone thrown upwards, has its equation of motion `s=490t-4.9t^2`. The the maximum height reached by it is

A stone, vertically thrown upward is moving in a line. Its equation of motion is s=294t-49t^(2) , then the maximum height that the stone reaches is

A stone thrown upwards from ground level, has its equation of height h=490t-4.9t^(2) where 'h' is in metres and t is in seconds respectively. What is the maximum height reached by it ?

A stone is thrown vertically upward with a speed of 28 m/s. (a) Find the maximum height reached by the stone. (b)Find its velocity one second before it reaches the maximum height. (c)Does the answer of part b change if the initial speed is more than 28 m/s such as 40 m/s or 80 m/s?

A stone thrown vertically upwards rises S ft in t seconds where S =112t-16t ^(2) . The maximum height reached by the stone is

A stone thrown vertically upwards satisfies the equations s = 80t –16t^(2) . The time required to reach the maximum height is

A stone is thrown vertically upwards with a velocity of 4.9 ms^(-1) . Calculate : the maximum height reached.

A ball is thrown vertically upwards with a velocity of 4.9m/s Find (i) the maximum height reached by the ball (ii) time taken to reach the maximum height

A stone is thrown verticaly upward with an initial velocity of 40m//s . Taking g=10m//s^(2) , find the maximum height reached by the stone. What is the net displacement and the total distance covered by the stone?

A stone thrown down with a seed u takes a time t_(1) to reach the ground , while another stone, thrown upwards from the same point with the same speed, takes time t_(2) . The maximum height the second stone reaches from the ground is