`F = (3,-4,2)` & `r = (2,2,1)` then find torque about the origin.

A force F=(2hati+3hatj-hatk)N is acting on a body at a position r=(6hati-3hatj-2hatk) . Calculate the torque about the origin

The body in figure shown is pivoted at O and two forces acts on it as shown (i) Find an expression of the net torque on the body about the pivot (ii) If r_(1)=1.30 m,r_(2)=2.15 m,F_(1)=4.20N,F_(2)=4.90 N,theta_(1)=75^(@) and theta_(2) = 60^(@) , what is the net torque about the pivot ?

A force F= 2hati+3hatj-hatk acts at a point (2,-3,1). Then magnitude of torque about point (0,0,2) will be

A force F=(2hati+3hatj-2hatk)N is acting on a body at point (2m, 4m,-2m) . Find torque of this force about origin.

If vec F is the force acting in a particle having position vector vec r and vec tau be the torque of this force about the origin, then

A faorce F=5hati+2hatj-5hatk acts on particles whose position vector is r=vecj-2vecj+veck. What is the torque about the origin ?

The body in shown figure is pivoted at O, and two forces act on its as shown. If r_1 = 1.30 m, r_2 = 2.15 m, F_1 = 4.20 N, F_2 = 4.90 N, theta_1 = 45^@ and theta_2 = 60^@ , What is the net torque about the privot ? what is the net torque about the pivot?

A particle of mass 0.2 kg moves along a path given by the relation : vec(r)=2cos omegat hat(i)+3 sin omegat hat(j) . Then he torque on the particle about the origin is :

f(x) is a polynomial of degree 3 passing through the origin having local extrema at x=+-2 Statement 1: Ratio of areas in which f(x) cuts the circle x^(2)+y^(2)=36 is 1:1. Statement 2: Both y=f(x) and the circle are symmetric about the origin.