Two particles having position verctors `vecr_(1)=(3hati+5hatj)` metres and `vecr_(2)=(-5hati-3hatj)` metres are moving with velocities `vecv_(1)=(4hati+3hatj)m//s and vecv_(2)=(alphahati+7hatj)m//s`. If they collide after 2 seconds, the value of `alpha` is

Two particles having position vectors vecr_(1)=(3veci+5 vecj)m and vecr_(2)=(-5veci+3 vecj)m are moving with velocities vecV_(1)=(4hati-4hatj)ms^(-1) and vecV_(2)=(1hati-3hatj)ms^(-1) . If they collide after 2 seconds, the value of a is

Given vecF=(4hati-10hatj)and vecr=(5hati-3hatj) . then torque vectau is

Find the angle between the vector vecr_(1)=(4hati-3hatj+5hatk) andvecr_(2)=(3hati+4hatj+5hatk) .

Find the angle between the vectors vecr_(1)=(3hati-2hatj+hatk) and hatr_(2)=(4hati+5hatj+7hatk) .

The velociies of A and B are vecv_(A)= 2hati + 4hatj and vecv_(B) = 3hati - 7hatj , velocity of B as observed by A is

Velocity of a particle of mass 2 kg change from vecv_(1) =-2hati-2hatjm/s to vecv_(2)=(hati-hatj)m//s after colliding with as plane surface.

Two particles of masses m and 2 m has initial velocity vecu_(1)=2hati+3hatj(m)/(s) and vecu_(2)=-4hati+3hatj(m)/(s) Respectivley. These particles have constant acceleration veca_(1)=4hati+3hatj((m)/(s^(2))) and veca_(2)=-4hati-2hatj((m)/(s^(2))) Respectively. Path of the centre of the centre of mass of this two particle system will be:

The position of an object changes from vecr = ( 2hati + hatj) " m to " vecr_(1) = ( 4hati + 3hati) m in 2s. Find its average velocity.