An object after travelling at a uniform velocity of `4 "m.s"^(-1)` for 5 s travels with a constant acceleration of 0.5 `"m.s"^(-2)` in the same direction for another 5s. Find the average velocity throughout the journey.

A car starting with velocity 10 "m.s"^(-1) attains an acceleration 1 "m.s"^(-2) . What would be the distance traveled in time interval 10 sec?

Two particles start moving from point A along a straight line AB at the same time in the same direction. One particle moves with a uniform velocity of 12 "m.s"^(-1) and the other with an acceleration of 2 "m.s"^(-2) and an initial velocity of 5 "m.s"^(-1) . After how much time will the two particles meet ?

A car starting with velocity 10 "m.s"^(-1) attains an acceleration 1 "m.s"^(-2) . What would be the velocity after traveling the first 100 m of the path?

A car starting with velocity 10 "m.s"^(-1) attains an acceleration 1 "m.s"^(-2) . After what time interval will its velocity be 20 "m.s"^(-1) ?

Two ice skaters A and B approach each other at right angles. Skater A has a mass 30 kg and velocity 1 "m.s"^(-1) , skater B has a mass 20 kg and velocity 2"m.s"^(-1) . They meet and cling together. Find the final velocity (in "m.s"^(-1) ) of the couple.

A bike initially at rest travels the first 20 m in 4 s along a straight line with constant acceleration. Determine the acceleration of the bike in "m.s"^(-2) .

A particle moves in the x-y plane with constant acceleration of 4 "m.s"^(-2) in the direction making an angle of 60^(@) with the x-axis. Initially, the particle is at the origin and its velocity is 5 "m.s"^(-1) along the x-axis. Find the velocity and the position of the particle at t = 5s.