A force `vecF=(6hati-8hatj+10hatk)N` produces acceleration of `1 ms^(-2)` in a body. Calculate the mass of the body.

A force F=(6hati-8hatj+10hatk) N produces acceleration of sqrt(2) ms^(-2) in a body. Calculate the mass of the body.

A body, under the action of a force vec(F)=6hati -8hatj+10hatk , acquires an acceleration of 1ms^(-2) . The mass of this body must be.

A body under the action of a force vec(F)=6hat(i)-8hat(j)N acquires an acceleration of 5ms^(-2) . The mass of the body is

A body, under the action of a force F=6hat(i)-8hat(j)+10hat(k) acceleration of 1ms^(-2) . The mass of this body must be

If a body under the action of force (6hati +8hatj-10hatk) N. acquires an acceleration of magnitude 5 ms^-2 . Then the mass of body is

A resultant force of 45 kgf is acting on a body whose acceleration is 10 "m/ sec"^2 . Calculate the mass of the body.

A 10 N force is applied on a body produces an acceleration of 1 m//s^(2) . The mass of the body is

A force vector applied on a mass is represented as F = 6i - 8j + 10k and acceleration with 1 m//s^(2) . What will be the mass of the body ?

A 10 N force is applied on a body which produces in it an acceleration of 1 m//s^(2) . The mass of other body is

A force produces an acceleration of 4ms^(-2) in a body of mass m_(1) and the same force produces an acceleration of 6ms^(-2) in another body oa mass m_(2) . If the same force is applied to (m_(1)+m_(2)) , then the acceleration will be