I'm guessing this question relates to the formula Force=mass*acceleration.
in this case if the mass stays the same, then Force and acceleration are directly proportional (if one goes up, then by mathematical law, the other one also has to)
When mass increases, force increases. When acceleration increases, force also increases.
it increases in direct proportion to the force applied
the acceleration of the effort force
Yes, increased force applied to an object results in an increase in acceleration.
The acceleration would be increased if the person pushing started to use a greater force. This would increase the force but keep the mass constant.
its acceleration will be increased
its acceleration will be increased
its acceleration will be increased
it increases in direct proportion to the force applied
In that case, the acceleration will also increase.
Assuming the mass remains constant, the acceleration will be tripled as well.
its acceleration will be increased
the acceleration of the effort force
You don't even have to increase the force.If there's a force acting on an object, then both its velocity and its acceleration are changing.
Object shows acceleration when the force applied on it is increased.
Yes, increased force applied to an object results in an increase in acceleration.
The acceleration would be increased if the person pushing started to use a greater force. This would increase the force but keep the mass constant.
Gravitational force is directly proportional to the product of masses. So as mass is increased then force too increases