A ball is projected in vertical x–y plane from a car moving along horizontal x direction. The car is speeding up with constant acceleration. Which one of the following trajectory of the ball is not possible in the reference frame attached to the car? Give reason for your answer. Explain the condition in which other trajectories are possible. Consider origin at the point of projection.

A force is applied to a cart moving along a horizontal track in the positive x direction. If the cart speeds up and then slows down, then which one of the following graphs best shows the variation of the force with time for the cart? Assume that friction is negligible.

A particle moves in the x-y plane with constant acceleration alpha directed along the negative direction of the y-axis.the equation of the trajectory of the particle is y=ax- bx^2 , where a and b are constants. Find the velocity of the particle when it passes through the origin.

A car speeds up with constant magnitude of tangential acceleration in a circular path moving in anticlockwise direction which of the following figure represents acceleration of the car

A car accelerates from rest at constant rate for the first 10 s and covers a distance x. It covers a distance y in the next 10 s at the same acceleration. Which of the following is true?

A car is moving along the circle x^(2)+y^(2)=a^(2) in the anti-clockwise direction with a constant speed. The x-y plane is a rough horizontal stationary surface. When the car is at the point ( a cos theta, a sin theta ), the unit vector in the direction of the friction force acting on the car is

A ball is thrown straight up in air with an initial velocity u. Air exerts a force on it in horizontal direction which produces an acceleration depending on its height from ground as a_(x) = ah^(2) . Find the displacement of ball from the projection point as a function of time.

A particle is projected at time t=0 from a point O with a speed u at an angle theta to horizontal. Find the torque of a gravitational force on projectile about the origin at time t. (x,y plane is vertical plane)

A projectile is thrown from ground at a speed v_(0) at an angle alpha to the horizontal. Consider point of projection as origin, horizontal direction as X axis and vertically upward as Y axis. Let t be the time when the velocity vector of the projectile becomes perpendicular to its position vector. (a) Write a quadratic equation in t. (b) What is the maximum angle a for which the distance of projectile from the point of projection always keeps on increasing? [Hint: Start from the equation you obtained in part (a)]