A very simple answer for an unspecific question:
Force = Mass x Acceleration
If you increase the force acting on an object you will also increase that objects acceleration (If the force on a stationary object is enough to overcome friction or if the force is in the same direction that an object is already moving, etc.).
No. In order for an object to remain stationary, the forces on it must be balanced. If the pull on the object increases, the force of static friction must also increase.
The mass of an object is constant unless you physically add to it or cut part of it off. It will not increase when an object is pulled by a constant force.
The force of friction on an object is equal to the coefficient of friction times the force perpendicular to the surface (normal force). When the mass of an object increases, the normal force increases, and the force of friction also increases. However, because the equation does not involve surface area, increasing surface area has no affect on the force of friction.
By raising the object to a higher position. The potential energy also depends on the force of gravity, and on the object's mass, but for a given object (and for a given planet!), you have no control over these.
A continuous force(Gravitational Pull) is always there, but at a still object, there is a reaction force over it... But when dropping, there is on such force other than the reaction of wind etc so the velocity increases.... But the increasing of velocity also has a maximum limit.... !! Mostly depending on the object and the surrounding....
A very simple answer for an unspecific question: Force = Mass x Acceleration If you increase the force acting on an object you will also increase that objects acceleration (If the force on a stationary object is enough to overcome friction or if the force is in the same direction that an object is already moving, etc.).
the mass
In that case, the acceleration will also increase.
If the mass increases then the gravitational force will also correspondily increase as gravity is directly proportional to the mass of the object
No. In order for an object to remain stationary, the forces on it must be balanced. If the pull on the object increases, the force of static friction must also increase.
The mass of an object is constant unless you physically add to it or cut part of it off. It will not increase when an object is pulled by a constant force.
The force of friction on an object is equal to the coefficient of friction times the force perpendicular to the surface (normal force). When the mass of an object increases, the normal force increases, and the force of friction also increases. However, because the equation does not involve surface area, increasing surface area has no affect on the force of friction.
Newtons 2nd law means that when force is applied on any object an acceleration is produced in the direction of force which is applied on it. The acceleration produced in the object is directly proportional to the force applied on the object i.e. if force increases then acceleration will also increase and the acceleration is inversely proportional to the mass of object i.e. if the mass of the body decreases then acceleration will increase. If force is represented by 'F', acceleration by 'a' and mass by 'm' then a is directly proportional to F a is inversely proportional to m
If the object is on or near the Earth's surface, then most people call that force the object's "weight". Nobody ever gives any attention to the gravitational force that the object exerts on the Earth, probably because it happens to be exactly the same as the object's weight on the Earth. The neat thing about it, however, is that the same force is also the Earth's weight on the object.
One can move the object in the negative direction of a gravitational force to increase its gravitational potential energy.If the object is elastic, you can deform the object under tension or compression (stress) to increase its elastic potential energy.If the object holds a magnetic charge you can increase its electrodynamic potential energy by subjecting it to a stronger magnetic field.If the object holds a static charge, one can increase the amount of charged electric particles (static) to increase electrostatic potential energy, also known as electric potential.One can heat an object to increase its thermal potential energy.One can slow an object down to increase it's rest mass energy (also potential)One can introduce charged leptons or down-type quarks into an atom, which by emitting W and Z bosons can increase the weak forces, which will increase nuclear potential forces of an atom (bit of a stretch)
By raising the object to a higher position. The potential energy also depends on the force of gravity, and on the object's mass, but for a given object (and for a given planet!), you have no control over these.
force can accelerate any object. it can also decelerate any object. force can also deform any object from its original shape. good enough??:)..