Statement-1: As wind flows left to right and a ball is spined as shown, there will be a lift of the ball.
Statement-2: Decrease in velocity of air below the ball, increases the pressure more than that above the ball.

Statement-1 : The fundamental frequency of an organ pipe increases as the temperature increases Statement-2 : As the temperature increases, the velocity of sound increases more rapidly than length of the pipe.

Assertion:- A ball allowed to spin in a region of uniform wind motion, will get an uplift. Reason:- Due to spin of the ball in a region of uniform wind motion, the difference in velocity of air flow is present between the lower and upper position of ball, leading to varying pressure.

A ball is dropped from a height h above ground. Neglect the air resistance, its velocity (v) varies with its height (y) above the ground as :-

Statement-1 : Shock waves produced by supersonic aircraft may be visible Statement-2 : The sudden decrease in air pressure in the shock waves caused water molecules in the air to condense, forming a fog.

A wire of length L and cross section area A is kept on a horizontal surface and one of its end is fixed at point 0. A ball of mass m is tied to its other end and the system is rotated with angular velocity omega. Show that increase in its length. Delta l = (m omega ^(2) L ^(2))/(AY). Y is young’s modulus.

A player throwsa a ball upwards with an initial speed of 29.4 ms^(-1) . (i) What is the direction of acceleration during the upwared motion of the ball? (ii) What are the velocity and acceleration of the ball at the highest point of its motion? (iii) Choose the x=0 and t=0 to be the location and time of the ball at its highest point, vertically downward direction to be the positive direction of X-axis, and give the signs of positive, velocity and acceleration of the ball during its upward, and downward motion. (iv) To what height does the ball rise and after how long does the ball return to the player's hand?( Take g =9.8 ms^(-2) , and neglect air resistance).

Two small balls having the same mass and charge and located on the same vertical at heights h_(1) and h_(2) are thrown in the same direction along the horizontal at the same velocity v. The first ball touches the ground at a horizontal distance R from the initial vertical position. At what height h_(2) will the second ball be at this instant? Neglect any frictional resistance of air and the effect of any induced charge on the ground.

Statement I: If a ball projected up obliquely from the ground breaks up into several fragments in its path, the centre of the system of all fragments moves in the same parabolic path compared to initial one till all fragments are in air. Statement II: In the situation of Statement 1, at the instant of breaking, the fragments may be thrown in different directions with different speeds.

A car P is moving with a uniform speed 5sqrt3 m//s towards a carriage of mass 9 kg at rest kept on the rails at a point B as shown in figure. The height AC is 120 m. Cannon balls of 1 kg are fired from the car with an initial velocity 100m//s at an angle 30^@ with the horizontal. The first cannon hall hits the stationary carriage after a time t_0 and sticks to it. Determine t_0 . At t_0 , the second cannon ball is fired. Assume that the resistive force between the rails and the carriage is constant and ignore the vertical motion of the carriage throughout. If the second ball also hits and sticks to the carriage, what will be the horizontal velocity of the carriage just after the second impact?

A mass M is in static equilibrium on a massless vertical spring as shown in the figure. A ball of mass m dropped from certain height sticks to the mass M after colliding with it.The oscillations they perform reach to height a above the original level of scales & depth 'b' below it. (a) Find the constant of force of the spring., (b) Find the oscillation frequency.