Force `vec(F)=(4sqrt(2hat(i))+3sqrt(2)hat(j))` acting on a body so that it's acceleration become `vec(a)=(4hat(i)+3hat(j))`, then what will be the mass of body

A force (3 hat(i)+4 hat(j)) acts on a body and displaces it by (3 hat(i)+4 hat(j))m . The work done by the force is

The torque of a force vec(F)=-2hat(i)+2hat(j)+3hat(k) acting on a point vec(r )=hat(i)-2hat(j)+hat(k) about origin will be

A particle has initial velocity vec(v)=3hat(i)+4hat(j) and a constant force vec(F)=4hat(i)-3hat(j) acts on the particle. The path of the particle is :

If vec F =2 hat i + 3hat j +4hat k acts on a body and displaces it by vec S =3 hat i + 2hat j + 5 hat k , then the work done by the force is

vec(r )=(-4hat(i)+4hat(j) +hat(k)) + lambda (hat(i) +hat(j) -hat(k)) vec(r)=(-3hat(i) -8hat(j) -3hat(k)) + mu (2hat(i) +3hat(j) +3hat(k))

If vec(a)= 2 hat(i) + 3hat(j) + 4hat(k) and vec(b) = 3hat(i) + 2hat(j) - lamda hat(k) are perpendicular, then what is the value of lamda ?

Three vectors vec(A) = 2hat(i) - hat(j) + hat(k), vec(B) = hat(i) - 3hat(j) - 5hat(k) , and vec(C ) = 3hat(i) - 4hat(j) - 4hat(k) are sides of an :

The torque of force vec(F)=-3hat(i)+hat(j)+5hat(k) acting at the point vec(r)=7hat(i)+3hat(j)+hat(k) is ______________?

For a body, angular velocity (vec(omega)) = hat(i) - 2hat(j) + 3hat(k) and radius vector (vec(r )) = hat(i) + hat(j) + vec(k) , then its velocity is :

Find the net torque of these following forces about origin vec(F)_(1) = hat(i) - hat(j) acting at vec(r_(1))= 2hat(i) + hat(j), vec(F)_(2) = -hat(i) + hat(j) acting at vec(r_(2)) =hat(i) +2hat(j) & vec(F)_(3) = hat(i) +hat(j) acting at vec(r )_(3) = hat(i) - hat(j) .