According to my science class, force affects an object in several ways. But to understand the force effects, you must first know about the concept of Inertia. Inertia is basically the tendency for an object to maintain it's current state of motion. Also known as Newton's First Law - An object at rest will stay at rest unless acted upon by a force and an object in motion will stay in motion unless acted upon by a force. Think of a Baseball flying through space. That baseball keep on traveling forever in the same direction unless it encounters a force such as gravity or hits an asteroid. Or imagine a baseball that was simply placed in the middle of space with no push. That ball would stay in the same spot forever unless it encountered a force like a collision or a gravity field. So you now know that force is the thing that affects and changes an object's motion. One giant example of force and inertia interacting is our solar system. The planets will never stop moving because they where put in motion long ago by some vast explosion. But they don't fly off into space because the force of gravity wielded by the sun has caught them in its pull and is able to change their headlong motion into an eternal loop. To put it simply, force affects objects as either a push or a pull.
Force is what is required for an object to move. Remember - an object at rest, tends to stay at rest unless acted upon by an EXTERNAL FORCE. Work is a product of the above mentioned FORCE required to move the object a certain DISTANCE (W=F*d)
a force is a push or a pull and it affects our daily lives because without force, people wouldnt be able to open and close stuff or lift up our arms or legs...or anything, for that matter.
Force affects an object by accelerating it. Newton's Second Law of Motion states that force = mass times acceleration. Solving for acceleration, you get acceleration = force divided by mass.
As you will recall, force equals mass times acceleration. And when mass is accelerated, that alters its kinetic energy. Kinetic energy is one half of mass times the square of the velocity.
no
Kinetic energy depends on mass and speed. It is not directly affected by any force; however, a force can, of course, make an object move faster or slower, and thus indirectly affect kinetic energy.
There are different types of energy transfers; the details depend on what type of energy transfer you are thinking about.
It's really the other way round - force affects potential energy. Potential energy is the RESULT (not the cause) of a force being required to move something - for instance, against the force of gravity or an electric field.
Yes the force and the energy affect the bounciness of the ball.If the ball is released from 1 meter above the ground, it will fall with certain force and energy.Now let say we drop the same ball from a height of 10m then we have increased its potential energy so this time striking the surface with more force and energy and higher the ball will bounce in this case.The ball has its "bounciness" built in. The amount of energy transferred on a bounce (or series of bounces) simply "explores" what the ball already has.
Yes, every force have energy.
The magnetic force absorbs energy.
The magnetic force absorbs energy.
Kinetic energy depends on mass and speed. It is not directly affected by any force; however, a force can, of course, make an object move faster or slower, and thus indirectly affect kinetic energy.
Well force does affect as energy (Strength) of the wind/something forcing it pushes something forward and backwards like a hurricane.
There are different types of energy transfers; the details depend on what type of energy transfer you are thinking about.
It's really the other way round - force affects potential energy. Potential energy is the RESULT (not the cause) of a force being required to move something - for instance, against the force of gravity or an electric field.
The mass, height and the force of gravity at the location.
Yes the force and the energy affect the bounciness of the ball.If the ball is released from 1 meter above the ground, it will fall with certain force and energy.Now let say we drop the same ball from a height of 10m then we have increased its potential energy so this time striking the surface with more force and energy and higher the ball will bounce in this case.The ball has its "bounciness" built in. The amount of energy transferred on a bounce (or series of bounces) simply "explores" what the ball already has.
Force is energy
No. When there is an energy, there is often also some kind of force involved. However, you should be careful to distinguish the two. An energy is NOT a force, and a force is NOT an energy.
Yes, every force have energy.
Energy medicine is based upon the belief that changes in the "life force" of the body, including the electric, magnetic, and electromagnetic fields, affect human health and can promote healing.