STATEMENT-1 : The relation `vectau=(dvecL)/(dt)` is applicable in centre of mass frame, even though the centre of mass is accelerating.
and
STATEMENT-2 : The relation `vectau=(dvecL)/(dt)` can be directly applied in a non-inertial frame.

STATEMENT-1 : Tension at every point in a string with mass at every cross section must be unequal , if the string is accelerating . and STATEMENT - 2 : If we draw free body diagram for any section of the string , net external force acting on the string has to be equal to product of its mass ( which is non- zero ) and its acceleration .

STATEMENT-1 : When a projectile explodes in mid air the centre of mass follows circular path after explosion. STATEMENT-2 : In an elastic collision velocities can't be interchanged it colliding bodies have different masses. STATEMENT-3 : During a perfectly elastic collision the kinetic energy of the system remains constant.

STATEMENT - 1 : A body has no inertia, when it is at the centre of the earth. and STATEMENT - 2 : At centre of the earth the mass of a body is non - zero .

Statement-1 : The centre of mass of a body may lie where there is no mass. Statement-2 : The centre of mass has nothing to do with the mass.

STATEMENT -1 : Net force on a particle w.r.t an inertial frame does notdepend on the velocity of the intertial frame. , STATEMENT - 2 : If net force on A is vec(F)_(A) and net force on B is vec(F)_(B) then force on A w.r.t B is (ven(F)_(A) - vec(F)_(B)) . STATEMENT - 2 : If acceleration of A is vec(a)_(A) and acceleration of B is vec(a)_(B) then, the acceleration of A w.r.t B is ( vec(a)_(A) - vec(a)_(B))

Satement-1: if there is no external torque on a body about its centre of mass, then the velocity of the center of mass remains constant. Statement-2: The linear momentum of an isolated system remains constant.

STATEMENT - 1 : Equation of motion (v=u+at) is applicable even if the acceleration is non-uniform. STATEMENT - 2 : The initial velocity of a body is u and its acceleration is ft where f is a constant and t is time. The displacement in time t is (ut+(1)/(2)ft^(2)) . STATEMENT - 3 : The area enclosed by the a-t graph and time axis gives the change in velocity of the body.