Action & Reaction: Point & Extended Body

In summary: In other words, the forces on the body can change as the body tries to do something it's not supposed to be able to do (like a rock trying to levitate).In summary, Newton's third law states that the force exerted on a body by another body is equal and opposite to the force the body applies to the other body. This law is important for understanding how bodies interact, but it is more powerful when the bodies can deform.
  • #1
Frank66
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In a generic case of a mass point and an extended body to interact with gravitational force, the total force on the point admits a reaction to be construed as, on the extended body ?

The total force on the extended body do not arise from the interaction between two points, but between a point and many points so, where is it applied? (whether it makes sense to speak of application ponit)

The third law gives us no information about its point of application but it tells us the direction, to and intensity so as to be understood? (regardless of the theorem dl motion of the center of mass, which is another topic)
 
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  • #2
Frank66 said:
In a generic case of a mass point and an extended body to interact with gravitational force, the total force on the point admits a reaction to be construed as, on the extended body ?

The total force on the extended body do not arise from the interaction between two points, but between a point and many points so, where is it applied? (whether it makes sense to speak of application ponit)

The third law gives us no information about its point of application but it tells us the direction, to and intensity so as to be understood? (regardless of the theorem dl motion of the center of mass, which is another topic)

The graviatational force acts between any two point masses, so for the total force on the extended body, it is actually a summation of the individual forces on each point mass on the extended body. As for point of application goes, gravitation is a field force, not a contact force, so there is no point of application per se. Thus all points on the extended body feel this force. For simplicity, we assume that the point of application of this force is at the center of mass, but that holds true only in certain cases.
 
  • #3
But the law of action/reaction indicates a precise direction and versus of the total force on the body. It seems there was also a point of application...or not? Which is the meaning of this?
 
  • #4
Newton's 3rd law is a statement about *contact forces*. When two bodies interact via contact (collisions, pulling via a rope, standing on the ground, etc), while we may not yet know the *nature* or the *cause* of the interaction, we can state that whatever force body 1 applies to body 2 is equal and opposite to the force body 2 exerts on body 1.

For rigid bodies or point masses this is boring. The real power of this concept arises when the bodies can *deform*.
 

1. What is action and reaction in the context of physics?

Action and reaction, also known as Newton's Third Law of Motion, states that for every action, there is an equal and opposite reaction. This means that when one object exerts a force on another object, the second object will exert an equal force in the opposite direction.

2. How is action and reaction related to point and extended bodies?

In physics, a point body is a theoretical object that has mass but no physical dimensions, meaning it is treated as a single point. An extended body, on the other hand, has mass and physical dimensions. The concept of action and reaction applies to both types of bodies, with the forces acting at the point of contact for point bodies and distributed over the surface for extended bodies.

3. What are some real-life examples of action and reaction?

There are many examples of action and reaction in everyday life, such as a person walking on the ground (the person exerts a force on the ground, and the ground exerts an equal and opposite force back, allowing the person to move forward). Other examples include a rocket launching (the rocket's engines push gas molecules backward, causing the rocket to move forward) and a balloon inflating (as air is blown into the balloon, the balloon expands in the opposite direction).

4. How does action and reaction affect the motion of an object?

Action and reaction forces do not cancel each other out, as they act on different objects. However, they can affect the motion of an object. When two objects interact, the forces they exert on each other can cause a change in the object's motion, such as speeding up, slowing down, or changing direction.

5. Is action and reaction the only force acting on an object?

No, there can be other forces acting on an object in addition to action and reaction. For example, if a book is resting on a table, the action and reaction forces between the book and the table are equal and opposite, but there is also the force of gravity acting on the book, pulling it down towards the Earth.

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