Decreasing the applied force and increasing the distance
Either an alarm clock or a Force (preferibly not the dark side, as that never turns out well).
No, impulse is not the product of average applied force and the duration of the force. Impulse is the integral of the force with respect to time.
normal force, frictional force, applied force, gravitational force, air resistance force
The force is applied proportional to it...........
It changes the direction of the input force only
Up
Either an alarm clock or a Force (preferibly not the dark side, as that never turns out well).
No, impulse is not the product of average applied force and the duration of the force. Impulse is the integral of the force with respect to time.
Normal force can act on an object
normal force, frictional force, applied force, gravitational force, air resistance force
An input force is what force you act upon a machine. The output is what it does for you in return.
The force is applied proportional to it...........
It changes the direction of the input force only
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.
As the door is free to move in our case, then no reaction as per your expectation ie the second force named as newton's second force, by you. The force applied would act as torque as it gets a chance to make an angular displacement of the door about the axis of rotation. Hence work will be done by the force applied.
no force act on it
the force between two masses A and B which are lying next to each other and a force F is being applied on one of the masses, for example A.