Can we derive the kinematic relations V= u+ at , S = ut = `1/2 at^2 and V^2 = u^2 + ` 2as. Explain the reason for your answer.

Derive the equation of motion x=v_0t+1/2at^2 using appropriate graph.

The relation between U, P and V for an ideal gas is U = 2 + 3PV. What is the adiabatic coefficient of gas.

The relation between U, P and V for an ideal gas is U = 2 +3PV. What is the atomicity of gas.

Check the correctness of the formula S = ut + 1/3 "at"^2 where S is the distance , u is velocity , a is acceleration and t is time.

Collision takes place between two solid spheres denoted as 1 and 2. The initial velocities of the spheres are u_1 = 3 m/s and u_2 = 1.5 m/s and the final velocities are v_1 = 2.5 m/s and v_2 = 3.5 m/s. The coefficient of restitution between the materials of the spheres is nearly

Calculate the volume, mass and number of molecules of hydrogen liberated when 230 g of sodium reacts with excess of water at STP. (atomic masses of Na = 23U, O = 16U, and H = 1U) the balanced equation for the above reaction is {:(2Na_((s))+2H_(2)O_((l)),,to2NaOH_((aq)) +H_(2(g))+H_(2(g))uparrow),((2xx23)U+ 2(2xx1 +1 xx 16)U,,to2(23+16+1)U+(2xx1)U),(46 U + 36U,,to80U + 2U),(or46g + 36g ,, to 80 g + 2 g):}

A particle moves in a strainght line with uniform acceleration . Its velocity at time t=0 is v_1 and at time t_2=t is v_2. The average velocity of the particle in this time interval is (v_1+v_2)//2 Is this correct? Substantiate your answer.