Not enough information. But basically, you need to use Newton's Second Law: you need to divide the force by the mass of the yo-yo.
maybe: the force continues to be applied, even as the object accelerates
a mass accelerates uniformly when an external unbalanced and constant force is applied on it.
change in velocity
These two cases are represented by "positive" acceleration. The opposite cases (slowing down in the positive direction or speeding up in the negative direction) are represented by "negative" acceleration.
It accelerates
When a force is applied to an object, it accelerates. for example, if you push an object, the object accelerates away from you and, eventually, will move away from you..
The object accelerates.
A shove on an open door will force it into movement (motion) and it will close. cw: Mass moves at a constant rate (including zero) when there is no force applied to it. With a force applied, the mass accelerates. Accelerates means it changes its motion.
It accelerates as long as the force is applied, and after that it continues at a uniform speed and direction.
maybe: the force continues to be applied, even as the object accelerates
It accelerates as long as the force is applied, and after that it continues at a uniform speed and direction.
An object accelerates in the direction of the net applied force, which is the vector sum of all applied forces.
a mass accelerates uniformly when an external unbalanced and constant force is applied on it.
We're forced to go out on a limb here and propose an answer without benefit ofthe "following" list of choices, since, apparently, the question was automaticallytruncated and the choices were lost. It's a shame you went to all that trouble tocopy the choices along with the question, only to see them deleted by some nasty 'bot'.Since the object accelerates in the direction of the applied force, the net force on it ...equal to the vector sum of the applied force and the friction force ... must point inthe direction of the applied force, and so the frictional force must be less than theapplied force.
When we apply force on an object, it accelerates in the direction of applied force. This acceleration is directly proportional to the magnitude of force and inversely related to the mass of the object.
When an unbalanced force acts on an object, the weight of the object decreases.
Force = mass X acceleration, F=ma=3000kg X 6m/s2=18000kgm/s2=18 kilonewtons