Two particles having position vectors `vec(r )_(1) = ( 3 hat(i) + 5 hat(j)) meters` and `vec( r)_(2) = (- 5 hat(i) - 3 hat(j)) metres` are moving with velocities `vec(v)_(1) = ( 4 hat(i) + 3 hat(j)) m//s` and `vec(v)_(2) = (alpha hat(i) + 7 hat(j)) m//s`. If they collide after `2 s`, the value of `alpha` is

If vec(F) = (60 hat(i) + 15hat(j) - 3hat(k)) and vec(v) = (2hat(i) - 4hat(j) + 5hat(k))m//s , then instantaneous power is :

If vec(F ) = (60 hat(i) + 15 hat(j) - 3 hat(k)) N and vec(V) = (2 hat(i) - 4 hat(j) + 5 hat(k)) m/s, then instantaneous power is:

If vec(A) = 3 hat(i) - 4 hat(j) and vec(B) = 2 hat(i) + 16 hat(j) then the magnitude and direction of vec(A) + vec(B) will be

The work done by the force vec( F ) = 6 hat(i) + 2 hat(j) N in displacing an object from vec( r_(1)) = 3 hat(i) + 8 hat( j) to vec( r_(2)) = 5 hat( i) - 4 hat(j) m , is

If vec(a) = hat(i) + 2 hat(j) + 3 hat(k) and vec(b) = 2 hat(i) + 3 hat(j) + hat(k) , find a unit vector in the direction of ( 2 vec(a) + vec(b)) .

Find the scalr and vector products of two vectors vec a =(3 hat I - 4 hat j + 5 hat k) and vec b = (-2 hat I + hat j- 3 hat k).

Let vec( a) = 2 hat(i) - 3 hat(j) + 4 hat(k) and vec( b) = 7 hat(i) + hat(j) - 6 hat(k) . If vec( r ) xx vec( a) = vec( r ) xx vec( b) , vec( r ) . ( hat(i) +2 hat(j) + hat(k)) = -3 , then vec ( r ). ( 2 hat(i)- 3hat(j) + hat(k)) is equal to :

If vec(a) = hat(i) + hat(j) + 2 hat(k) and vec(b) = 3 hat(i) + 2 hat(j) - hat(k) , find the value of (vec(a) + 3 vec(b)) . ( 2 vec(a) - vec(b)) .

Find the area of the parallelogram whose diagonals are represented by the vectors (i) vec(d)_(1)= 3 hat(i) + hat(j) - 2 hat(k) and vec(d)_(2) = hat(i) - 3 hat(j) +4 hat(k) (ii) vec(d)_(1)= 2 hat(i) - hat(j) + hat(k) and vec(d)_(2)= 3 hat(i) + 4 hat(j)-hat(k) (iii) vec(d)_(1)= hat(i)- 3 hat(j) + 2 hat(k) and vec(d)_(2)= -hat(i)+2 hat(j).