The distance-time graph of a moving particle is given by `x = 4t -6t^(2)`. What is the positive maximum speed?

The distance-time graph of a moving particle is given by x = 4t -6t^(2) . At what time would the speed of the particle be zero ? ( x is in metre and t is in second).

The position-time relation of a moving particle is x = 2t -3t^(2) . What is the maximum positive velocity of the particle?

The position-time relation of a moving, particle is x = 2t - 3t^2 :- What is the maximum (+) ve velocity of the particle?

The position time relation of a moving particle is x = 2t - 3t^2 What is the maximum (+) ve velocity of the particle?

The position-time relation of a moving particle is x = 2t -3t^(2) . When does the velocity of the particle become zero? (x is in metre and t is in second)

The position coordinate of a moving particle is given by x = 6+18t +9 t^(2) (where x is in metre, t in seconds. What is its velocity and acceleration at t = 2 s.

The position time relation of a moving particle is x = 2t - 3t^2 When does the velocity of the particle become zero? (x is in metre and t is in second)

Relation between distance covered s and time t of a moving particles is , s = 2t^(3)-4t^(2)+3t , What will be the velocity and acceleration after 3 s?

The position-time relation of a moving, particle is x = 2t - 3t^2 :- When does the velocity of the particle become zero? (x is in metre and t is in second)

The displacement of a particle along x-axis is given by x = 3 + 8t-2t^(2) . What is its acceleration? At what time it will come into rest ? All are in SI units.