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A force vector applied on a mass is represented as `vecF = (6hati - 8hatj + 10 hatk)` N and accelerates with 1 `ms^-2` What will be the mass of the body?

Choose the correct options Centre of mass of body lies

Chose the correct option The force acting on a body of mass m, produces acceleration a,given by the equation F= ma. If oversetrarrF = (8hati + 6hatj - 10hatk) N and acceleration is 1 m//s^2 , the mass of the body is

Choose the correct options What is the torque of force f=(2i-3j+4k) acting at a point vecr = (3hati + 2hatj + 3hatk) m about origin?

Chose the correct option A force oversetrarrF = (2hati- 10hatj + 12hatk) N acts as a particle which moves along the positive Z axis. If it covers a distance of 10 m, the work done is

Chose the correct option If the vector oversetrarrahati + 0.8hatj + 0.06hatk is said to be unit vector, the value of a is.

What is the torque of force vec F = (2hati -2hatj - 4hatk) N acting at a point vec r = (3hati + 2hatj) m about the origin?

Chose the correct option vector 2hati + 3hatj -7hatk and hati + mhatj-2hatk are perpendicular vectors. The value of m is

Determine the vector product of vecv_1 = 2hati +3hatj -hatk and vecv_2 = hati+2hatj -3 hatk ,

Chose the correct option The resultant of 2 forces 10N and 15N acting along + x and - x axes respectively is

Choose the correct options Select WRONG statement about centre of mass: A. Centre of mass of a 'C' shaped uniform rod can never be a point on that rod. B. If the line of action of a force passes through the centre of mass, the moment of that force is zero. C. Centre of mass of our Earth is not at its geometrical centre. D. While balancing an object on pivot, the line of action of the gravitational force of the earth passes through the centre of mass of the object.