A particle is shifted from `A` to `B` and then from `B` to `C` where `A`,`B` and `C` are the midpoints of the corresponding faces of a cube of side `2m`. If a force `vec(F)=(3hat(i)+4hat(j)-5hat(k))N` is continously acting on the particle, then select incorrect alternative `:-`

What is the length of projection of vec(A)=3hat(i)+4hat(j)+5hat(k) on xy plane ?

The line of action of a force vec(F)=(-3hat(i)+hat(j)+5hat(k)) N passes through a point (7, 3, 1) . The moment of force (vec(tau)=vec(r)xxvec(F)) about origin is given by

Find the kinetic energy of a particle of mass 200 g moving with velocity 3hat(i)-5hat(j)+4hat(k) m//s .

The position vector of a particle is given by vec(r)=1.2 t hat(i)+0.9 t^(2) hat(j)-0.6(t^(3)-1)hat(k) where t is the time in seconds from the start of motion and where vec(r) is expressed in meters. For the condition when t=4 second, determine the power (P=vec(F).vec(v)) in watts produced by the force vec(F)=(60hat(i)-25hat(j)-40hat(k)) N which is acting on the particle.

If vec(A)=4hat(i)+nhat(j)-2hat(k) and vec(B)=2hat(i)+3hat(j)+hat(k) , then find the value of n so that vec(A) bot vec(B)

The compenent of vec(A)=hat(i)+hat(j)+5hat(j) perpendicular to vec(B)=3hat(i)+4hat(j) is

Find the angle between force vec(F) =(3hat(i)+4hat(j)-5hat(k)) unit and displacement vec(d)=(5hat(i)+4hat(j)+3hat(k)) unit , Also find the projection of F on d .

A particle is moving with a velocity of vec(v)=(3hat(i)+4that(j))m//s . Find the ratio of tangential acceleration to that of total acceleration at t=1sec

A particle of mass 2 kg is moving with velocity vec(v)_(0) = (2hat(i)-3hat(j))m//s in free space. Find its velocity 3s after a constant force vec(F)= (3hat(i) + 4hat(j))N starts acting on it.

The unit vactor parallel to the resultant of the vectors vec(A)=4hat(i)+3hat(j)+6hat(k) and vec(B)=-hat(i)+3hat(j)-8hat(k) is :-