When force `vec(F_(1)), vec(F_(2)),vec(F_(3))"…..."vec(F_(n))` act on a particle , the particle remains in equilibrium . If `vec( F_(1))` is now removed then acceleration of the particle is

When force vec(F)_(1),vec(F)_(2),vec(F)_(3) are acting on a particle of mass m , the particle remains in equilibrium. If the force vec(F)_(1) is now removed then the acceleration of the particle is :

When forces F_(1) , F_(2) , F_(3) are acting on a particle of mass m such that F_(2) and F_(3) are mutually prependicular, then the particle remains stationary. If the force F_(1) is now rejmoved then the acceleration of the particle is

When forces F_1 , F_2 , F_3 , are acting on a particle of mass m such that F_2 and F_3 are mutually perpendicular, then the particle remains stationary. If the force F_1 is now removed then the acceleration of the particle is

Five forces vec(F)_(1) ,vec(F)_(2) , vec(F)_(3) , vec(F)_(4) , and vec(F)_(5) , are acting on a particle of mass 2.0kg so that is moving with 4m//s^(2) in east direction. If vec(F)_(1) force is removed, then the acceleration becomes 7m//s^(2) in north, then the acceleration of the block if only vec(F)_(1) is action will be:

Three forces are acting on a particle of mass m initially in equilibrium if the first two forces (vec(R)_(1)and vec(R)_(2)) are perpendicular to each other and suddenly the third force (vec(R)_(3)) is removed, then the magnitude of acceleration of the particle is:

Three forces (vec(F)_(1), vec(F)_(2), vec(F)_(3)) are acting an a particle moving vertically up with constant speed. Two force vec(F)_(1)=-10hat(j)N , and vec(F)_(1)=-6hat(i)=8hat(j) , N are acting an particle on acting on particle respectively find vec(F)_(3) .

A particle of m=5kg is momentarily at rest at x= at t=. It is acted upon by two forces vec(F)_(1) and vec(F)_(2) . Vec(F)_(1)=70hat(j) N. The direction and manitude of vec(F)_(2) are unknown. The particle experiences a constant acceleration, vec(a) ,in the direction as shown in (figure) Neglect gravity. a.Find the missing force vec(F)_(2) . b. What is the velocity vector of the particle at t=10 s ? c. What third force, vec(F)_(3) is required to make the acceleration of the particle zero? Either give magnitude and direction of vec(F)_(3) or its components.

A body placed in free space, is simultaneously acted upon by three forces vec(F_(1)),vec(F_(2)) " and " vec(F_(3)) . The body is in equilibrium and the forces vec(F_(1)) " and "vec(F_(2)) are known ot be 36 N due north and 27 N due east respectively. Which of the following best describes the force vec(F_(3)) ?

Two forces vec(F_(1)) and vec(F_(2)) are acting at right angles to each other , find their resultant ?