Why do forces make an object move?

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In summary, an object will move when it experiences a force. This force has to impart some energy to the object in order for it to move.
  • #1
sameeralord
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Hello everyone,

May be the question is when something has energy and there is no resistance why does it move? Thanks!
 
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  • #2
A force by definition is a change in velocity of some object with mass m. Therefore by definition a force moves an object.
 
  • #3
Forces can make an object to accelerate only if the resultant force (vector sum of all forces) is non-zero.
If you ask why, it is the effect in order to neutralize the cause. For example, if there is a potential difference between two points, electric current flows from high potential to lower one, provided there is a path, to bring both the points at same potential. It seems that nature favors equality and does action whenever wherever possible to attain that.
 
  • #4
n.karthick said:
Forces can make an object to accelerate only if the resultant force (vector sum of all forces) is non-zero.
If you ask why, it is the effect in order to neutralize the cause. For example, if there is a potential difference between two points, electric current flows from high potential to lower one, provided there is a path, to bring both the points at same potential. It seems that nature favors equality and does action whenever wherever possible to attain that.

I can take a stone and push it uphill, thereby making things "unequal" if your definition of equality is all things are at an equal potential. Objects move when they experience a "force" because that's what we define a force to be. Forces don't have to be real things.
 
  • #5
Forces can also stop movement. For example, a sliding block on a horizontal surface will eventually stop due to the friction force acting on it.
 
  • #6
Well...change in velocity, as already discussed. Stopping and starting is all potato potarto. xD

Sort of going out on a tangent...The concept of a force is kind of weird. I don't know what teachers expect to teach kids when they talk about forces.
Especially since acceleration is generally discussed year(s) later. To be honest, I never really understood anything about forces until I did some F=ma examples. And then the confusion begins again with F=mv^2/r.
I guess it's confusing because forces don't really exist per se, but acceleration does.
I think people get mixed up with all the force/force field stuff without relating them back to their affect on stuff's accelerations.
/o\ just rambling.
 
  • #7
Thanks for all the answers. My question is more however, let's say I push a box on the floor, it gains energy and moves. Why does an object decide to change in position when energy is gained. Is this something we know because of observation. I think this question is more philosophical.
 
  • #8
Why does energy behave the way it does?

Hello everyone,

I don't know I have got really confused. Now if an object has energy, it can move. Is their any scientific explanation in molecular level or something why does energy make an object move. Also how do net forces work. If their is a box at rest and two people are pushing it with equal force in opposite directions. The object stays at rest. My question is what happens to the energy provided by two people. Does it cancel (how?), or does the object keep gaining energy without moving? I don't understand how forces give energy in a certain direction, what determines the direction? Thanks! :smile:
 
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  • #9
Forces do really exist in nature and they are measurable. As we all know its SI unit is Newton.
I would like to say, when an object is disturbed by a force and with no resistance in the path, it will move (accelerate) in order to show its opposition to the source which is creating force. The source has to impart some energy to it, thereby it is weakened.
Force can be viewed as a disturbance and the objects react to eliminate/de-magnify it.
 
  • #10


sameeralord said:
Also how do net forces work. If their is a box at rest and two people are pushing it with equal force in opposite directions. The object stays at rest. My question is what happens to the energy provided by two people. Does it cancel (how?), or does the object keep gaining energy without moving?
The people are not providing any energy to the box.
 
  • #11


Doc Al said:
The people are not providing any energy to the box.

Thanks for the reply :smile: When one person pushes on the box, due to momentum collision energy is transferrred to the box. Then the other person who pushes in the opposite direction also transfers energy to the box. I don't understand why no energy is transferred?
 
  • #12


No. Force is not energy. Energy (work) is force times distance, so if there is no disance, there is no energy.
 
  • #13


sameeralord said:
When one person pushes on the box, due to momentum collision energy is transferrred to the box.
Are you talking about pushing the box or colliding with the box? If you push something and it doesn't move, then you are not transferring any mechanical energy to that something.
 
  • #14
sameeralord said:
Thanks for all the answers. My question is more however, let's say I push a box on the floor, it gains energy and moves. Why does an object decide to change in position when energy is gained. Is this something we know because of observation. I think this question is more philosophical.
The question isn't philosophical, it is just a misunderstanding of what energy is: you're looking at the issue backwards. Energy is the biproduct of the movement, not the cause. The force is the cause of the motion.
 
  • #15


Doc Al said:
Are you talking about pushing the box or colliding with the box? If you push something and it doesn't move, then you are not transferring any mechanical energy to that something.

Thanks again Doc Al. I have lots of misunderstandings in physics. When something is pushes I'm using the momentum theory for that, so it doesn't work? Why does force have a direction? Could you explain it to me when two opposite forces act, why do they cancel each other. When there is a box on the table. Box due to gravity pushes down on the table, then a normal reaction force occurs, isn't this due to momentum transfer.
 
  • #16


sameeralord said:
I have lots of misunderstandings in physics. When something is pushes I'm using the momentum theory for that, so it doesn't work?
You're not being very clear: When you say "when something pushes" do you mean that the object being pushed moves? If it moves, energy is transferred and momentum is generated. If it doesn't move, no energy is transferred and no momentum is generated.
Why does force have a direction?
It's just a property of force - it is a vector. There is no "why".
Could you explain it to me when two opposite forces act, why do they cancel each other.
It's just math: 1-1=0
When there is a box on the table. Box due to gravity pushes down on the table, then a normal reaction force occurs, isn't this due to momentum transfer.
No, momentum is mv. If v=0, then momentum is zero.

I think you need to stop thinking in terms of the words and start thinking in terms of the mathematical meanings of the words. You aren't using the words correctly. You have the definitions wrong and that's why you are getting confused about how these concepts interact.
 
  • #17
russ_watters said:
The question isn't philosophical, it is just a misunderstanding of what energy is: you're looking at the issue backwards. Energy is the biproduct of the movement, not the cause. The force is the cause of the motion.

When something is acted upon by a force. It gains energy. So doesn't energy cause movement. Also if something is not acted upon by a force it can still travel at constant speed, that is because it has energy. I know force is something that causes an acceleration. What exactly is a force physically though. Is this going in a circle.
 
  • #18


How is a normal reaction force generated. I thought it was due to momentum, the box pushes on the table, the table pushes on the box, like a momentum collision.
 
  • #19


sameeralord said:
How is a normal reaction force generated. I thought it was due to momentum, the box pushes on the table, the table pushes on the box, like a momentum collision.
Nothing's moving, so where does momentum come in?
 
  • #20


Doc Al said:
Nothing's moving, so where does momentum come in?

The box is trying to move but each time it loses energy to the table. Ok then if this is not right, how is normal reaction force generated. Also Russ said earlier that movement is a by product of energy, I mean how can you be certain it is not otherway round, meaning no clear cut answer.
 
  • #21


sameeralord said:
How is a normal reaction force generated. I thought it was due to momentum, the box pushes on the table, the table pushes on the box, like a momentum collision.
A force can be generated due to change in momentum (a=f/m=dp/dt where p=mv), but if there is no change in momentum, then the force isn't generated that way. In a box sitting on a table, the force is generated in a different way: by gravity.
 
  • #22


sameeralord said:
The box is trying to move but each time it loses energy to the table.
No. Again, you need to stop thinking in terms of the words and start thinking in terms of what the math says those words mean. Without the math, the words have no meanings. Math is the language of physics.
Ok then if this is not right, how is normal reaction force generated.
In the case of a book on a table, the pair of forces is created by gravity.
Also Russ said earlier that movement is a by product of energy, I mean how can you be certain it is not otherway round, meaning no clear cut answer.
No, you said [implied] movement is a biproduct of (caused by) energy. I corrected you and said you have it backwards, that energy is a biproduct of movement. And how do I know it isn't the other way around? Again, it's the math. You must look at and think in terms of the math!

w=fd
e=.5mv^2

What do these equations say about work/energy?
 
  • #23


Ok first of all are most Newton's third law action reaction pairs due to momentum collisions. Then why is normal reaction not an action reaction pair. Ok then if it gravity. Since gravity is the attraction between 2 objects. How is gravity creating a normal reaction force? Ok I apoligize for the mistake in the previous, that was unintentional, however how do you know from maths it is the other way round. If a force provides energy for the object, why is energy bi product of movement. How can you be certain like that?
 
  • #24


sameeralord said:
Ok first of all are most Newton's third law action reaction pairs due to momentum collisions.
No. You don't need a collision to have an action-reaction pair.
Then why is normal reaction not an action reaction pair.
The normal force is part of an action-reaction pair, just like all contact forces are.
 
  • #25


Then how is normal reaction force created by gravity Doc Al. Also if gravity is attraction between two objects, why am I not attracted to objects near me beside the earth. All this time I thought change in momentum and Newton's third law is the same thing. Is it not in the normal reaction force case, is their no change in momentum?
 
  • #26


sameeralord said:
Then how is normal reaction force created by gravity Doc Al.
Imagine a book on a table. Gravity pulls it down. The table exerts an upward force on the book to cancel the pull of gravity to prevent the book from falling through the table. Newton's 3rd law tells us that the book must exert an equal and opposite force on the table.
Also if gravity is attraction between two objects, why am I not attracted to objects near me beside the earth.
You are! But those objects have tiny mass compared to the earth, so the force is small.
 
  • #27


Doc Al said:
Imagine a book on a table. Gravity pulls it down. The table exerts an upward force on the book to cancel the pull of gravity to prevent the book from falling through the table. Newton's 3rd law tells us that the book must exert an equal and opposite force on the table.

You are! But those objects have tiny mass compared to the earth, so the force is small.

Ok thanks for the reply :smile: Ok now how is the opposite reaction force exactly equal to gravity, how come it is not greater or smaller. Now all this time I though opposite reaction occurs due to change in momentum. So there is no change in momentum in this situation. Then why does every action has an opposite reaction, if it is not because of change of momentum I can't understand why every reaction has an opposite reaction.
 
  • #28
sameeralord said:
... how do you know from maths it is the other way round. If a force provides energy for the object, why is energy bi product of movement. How can you be certain like that?
because force doesn't always provide energy. When you know that force MIGHT or might not cause motion...well...you use the word "cause".
A static force pair is f=f
A force pair resulting in motion is f=ma

Also if you follow a scenario over time you can see force being constant but energy increasing.
 
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  • #29


russ_watters said:
because force doesn't always provide energy. When you know that force MIGHT or might not cause motion...well...you use the word "cause".
A static force pair is f=f
A force pair resulting in motion is f=ma

Also if you follow a scenario over time you can see force being constant but energy increasing.

Oh I think you are correct. As you rightly said I think maybe this is why I didn't understand the question about net forces. When a stationary box was pushed equally in opposite reactions. The forces there canceled out, inhibiting movement but I was thinking they were still providing energy and energy was getting canceled or something else happening to it. Thanks for correcting me :smile: However I still have the question why Newton's third law occur, is it because of change of momentum or not.
 
  • #30


sameeralord said:
Ok now how is the opposite reaction force exactly equal to gravity, how come it is not greater or smaller.
Depending upon the situation, the normal force could be greater or smaller than the weight of the object. In this case, the object is not accelerating, so we know the normal force must equal the weight.
 
  • #31


sameeralord said:
However I still have the question why Newton's third law occur, is it because of change of momentum or not.
I don't know what you mean by "change of momentum" in this context. You push on a wall; the wall pushes back on you. That's an example of Newton's 3rd law. Where do you see any change in momentum?
 
  • #32


Doc Al said:
I don't know what you mean by "change of momentum" in this context. You push on a wall; the wall pushes back on you. That's an example of Newton's 3rd law. Where do you see any change in momentum?

You push on the wall, you lose energy to the wall and hence slow down(which can also be considered as the wall acting on you). If that is not the explanation, why does every reaction have an equal and opposite reaction? Is their any form of energy transfer occurring here.
 
  • #33


sameeralord said:
You push on the wall, you lose energy to the wall
No you don't. Why do you think this?
and hence slow down(which can also be considered as the wall acting on you).
When I'm pushing the wall, I'm not moving.
If that is not the explanation
Not only are your statements not an explanation, they are not even true!
 
  • #34
russ_watters said:
The question isn't philosophical, it is just a misunderstanding of what energy is: you're looking at the issue backwards. Energy is the biproduct of the movement, not the cause. The force is the cause of the motion.
I don't know. In the Lagrangian formalism you certainly can look at it the other way. The energy is the cause of the motion and the force is simply the change in the energy wrt some coordinate.

sameeralord, are you familiar with Lagrangian mechanics? If not, perhaps you should look into it. At least for conservative forces it provides an approach where forces play a very secondary role and energy is the primary thing.
 
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  • #35
A moving object doesn't have or need a force. You only need a force to accelerate or decelerate an object.

It's never just a force acting on an object. Whenever a force acts upon an object the object will in turn always react with a force in the opposite direction. A reactive force. An object will only accelerate or decelerate when the active force is stronger than the reactive force from the object be it due to inertia, friction, mass, structural integrity or whatever. There's always an active force AND a reactive force. And of course if there's any type of friction and you want to have a constant speed you need to constantly apply a force equal to the frictional force. But if there isn't it will continue forever without any forces.

So I think there might be some kind of misunderstanding that a moving object has a force or need a force to keep going. It doesn't. It has energy, it has momentum, and sure it can impact something with a force. But for there to be a force there must also be a reactive force, in other words it must hit/act on something.
 
<h2>1. Why do forces make an object move?</h2><p>Forces make an object move because of Newton's First Law of Motion, which states that an object at rest will remain at rest, and an object in motion will continue in motion with a constant velocity, unless acted upon by an external force.</p><h2>2. What is the relationship between force and motion?</h2><p>The relationship between force and motion is described by Newton's Second Law of Motion, which states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass.</p><h2>3. Can an object move without any force acting on it?</h2><p>No, an object cannot move without any force acting on it. This is because of Newton's First Law of Motion, which states that an object at rest will remain at rest unless acted upon by an external force.</p><h2>4. How does the direction of a force affect an object's motion?</h2><p>The direction of a force affects an object's motion by determining the direction of its acceleration. According to Newton's Second Law of Motion, the acceleration of an object is in the same direction as the net force acting on it.</p><h2>5. What are some examples of forces that can make an object move?</h2><p>Some examples of forces that can make an object move include pushing or pulling an object, gravity, friction, and air resistance. These forces can act in different directions and magnitudes to cause an object to move or change its motion.</p>

1. Why do forces make an object move?

Forces make an object move because of Newton's First Law of Motion, which states that an object at rest will remain at rest, and an object in motion will continue in motion with a constant velocity, unless acted upon by an external force.

2. What is the relationship between force and motion?

The relationship between force and motion is described by Newton's Second Law of Motion, which states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass.

3. Can an object move without any force acting on it?

No, an object cannot move without any force acting on it. This is because of Newton's First Law of Motion, which states that an object at rest will remain at rest unless acted upon by an external force.

4. How does the direction of a force affect an object's motion?

The direction of a force affects an object's motion by determining the direction of its acceleration. According to Newton's Second Law of Motion, the acceleration of an object is in the same direction as the net force acting on it.

5. What are some examples of forces that can make an object move?

Some examples of forces that can make an object move include pushing or pulling an object, gravity, friction, and air resistance. These forces can act in different directions and magnitudes to cause an object to move or change its motion.

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