A force of `- F hat k` on `O`, the origin of the coordinate system. The torque about the point `(1, -1)` is.
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A force of -Fhatk actgs on O, the origin of the coodinate system. The torque about the point (1,-1) is

A force of -4Fhat(K) acts O, the origin of the coordinate system. The torque about the point (1,-1) is

A force Fhatk acts on O, the origin of the coordinate system. The torque of this force about the point is: (1,-1) is

Given four forces : vec F_1 = 3 hat i - hat j + 9 hat k vec F_2 = 2 hat i - 2 hat j + 16 hat k vec F_3 = 9 hat i + hat j + 18 hat k vec F_4= hat i + 2 hat j - 18 hat k If all these forces act on a particle at rest at the origin of a coordinate system, then identify the plane in which the particle would begin to move ?

Statement-I : Magnitude of torque of a force about a given point does not depend upon the location of the origin of the co-ordinate system. Statement II: Moment of couple is different for different points in its plane

The magnitude of the torque exerted at origin by the force F=i+2j+k at the point (1,1,1) is ?

Following forces start acting on a particle at rest at the origin of the co-ordinate system overset(rarr)F_(1)=-4 hat I -5 hat j +5hat k , overset(rarr)F_(2)=5hat I +8 hat j +6hat k , overset(rarr)F_(3)=-3hat I + 4 hat j - 7 hat k and overset(rarr)F_(4)=2hat i - 3 hat j - 2 hat k then the particle will move

Following forces start acting on a particle at rest at the origin of the co-ordinate system simultaneously vec(F)_(1)= -4hat(i)-5hat(j)+5hat(k), vec(F)_(2)= 5hat(i)+8hat(j)+6hat(k), vec(F)_(3)= -3hat(i)+4hat(j)-7hat(k) and vec(F)_(4)= 2hat(i)-3hat(k) then the particle will move