Holding an object in your hand, you can feel the force of gravity trying to bring the earth and the object together.
There is Inertia with newtons law that an object in motion stays in motion. There is gravity holding it down.If the object is at rest, there is no force acting upon it. Force = mass x acceleration (F=ma). Inertia is not a Force, and the net gravitional Force is zero because the downward acceleration is balanced by the upward push of the matter it rests upon. If there is no acceleration, there is no Force.
Well you shall need the initial force which propels the object, and there should be no hindering forces acting on the object when it is in motion. However all these forces will mean nothing without a force 'holding' the object onto the centre of rotation i.e. force of gravity, tensional force e.t.c.
a force which is applied to an object by a person or another object a force which is applied to an object by a person or another object
Centrifugal force causes an object to be more easily modified, the farther is gets from the center of gravity, or the core. The closer you get, the weaker the centrifugal force.
Holding an object in your hand, you can feel the force of gravity trying to bring the earth and the object together.
The force of your hands holding on two sides of the object you wish to hold. Although the gravitational force that is pulling the object downward is great; the force your hands are pressing onto the sides of the object is a lot greater. You will find that if you don't hold an object as tightly (decrease the force) it may drop. This is because the gravitational force increases.
Centripetal force is the force necessary to apply to an object to get it to orbit; like spinning a rock on a string. It you are holding on to the string, you will feel a centrifugal force.
There is Inertia with newtons law that an object in motion stays in motion. There is gravity holding it down.If the object is at rest, there is no force acting upon it. Force = mass x acceleration (F=ma). Inertia is not a Force, and the net gravitional Force is zero because the downward acceleration is balanced by the upward push of the matter it rests upon. If there is no acceleration, there is no Force.
A force perpendicular to an object's motion. Examples include: -- the gravitational force on an object in a circular orbit -- the gravitational force on a car that's moving on a level road -- the tension in the string holding a yo-yo as it spins in a circle around your head.
Well you shall need the initial force which propels the object, and there should be no hindering forces acting on the object when it is in motion. However all these forces will mean nothing without a force 'holding' the object onto the centre of rotation i.e. force of gravity, tensional force e.t.c.
a force which is applied to an object by a person or another object a force which is applied to an object by a person or another object
The floor is a stationary object (in relationship to you). The floor will provide only enough force to match the force of gravity holding you down. It has to be equal.
Centrifugal force causes an object to be more easily modified, the farther is gets from the center of gravity, or the core. The closer you get, the weaker the centrifugal force.
It's a play on words (try holding a weight steady at arms length) that's totally dependent on the definition of "work".
changes the motion of the object
When the only force on an object is the force of gravity,we say that the object is in "free fall".