Question on Newton's first law of motion

In summary, the center of mass of a collection of particles remains in uniform motion, unaffected by external forces, provided that the particles are not too far apart.
  • #1
ranger
Gold Member
1,687
2
Okay, so its stated that a body in motion stays uniformly in motion unless influenced by an external force. But what happens if that force is internal? For example, a rock moving in space that explodes from the inside. This causes the rock to fragment and move in different directions. This has changed its trajectory without any external forces. How would you explain this?

--thanks.
 
Last edited:
Science news on Phys.org
  • #2
The motion of the center of mass will remain in uniform motion, since there is no external force on the object (ignore gravity for the moment). But each individual piece does experience external forces, so they do get accelerated.
 
  • #3
The motion of the center of mass will remain in uniform motion, since there is no external force on the object
I find it hard to grasp that concept. How can the center of mass stay in uniform motion or even exist after the entire object has been fragmented?
 
  • #4
The center of mass of an object or collection of objects is an abstract point, not a physical part of an object. It's definition is the same whether it involves a single object or multiple pieces. See this: http://hyperphysics.phy-astr.gsu.edu/hbase/cm.html" .
 
Last edited by a moderator:
  • #5
ranger said:
I find it hard to grasp that concept. How can the center of mass stay in uniform motion or even exist after the entire object has been fragmented?

The cm's acceleration depends upon the net force on the whole object (or its constituents, whichever the case may be). Initially, there is no net external force, but after the fragmentation both objects experience equal and opposite forces (to conserve momentum of the system). Therefore, the net force is zero.
 
  • #6
Thanks alot, it makes more sense now.

btw, neutrino, when you say "both objects experience equal and opposite forces". Are the two objects you are referring to the cm and the actual object itself?
 
  • #7
ranger said:
Are the two objects you are referring to the cm and the actual object itself?
The cm is not an object! So it can't exert a force. neutrino is using an example where the original object breaks into two pieces--both pieces exert equal and opposite forces on each other. The cm of the system remains the same.
 
  • #8
Doc Al said:
The cm is not an object! So it can't exert a force. neutrino is using an example where the original object breaks into two pieces--both pieces exert equal and opposite forces on each other. The cm of the system remains the same.

Thanks for clearing that up. For some reason I had the two-fragment scenario in mind. Makes it simpler to understand, though. :)
 
  • #9
To add a bit to the previous posts:

Newton's laws as they are usually given apply to particles only. When you are considering a piece of rock, you are actually considering a (continuous) collection of particles.

It can then be formally derived that there is a particular function of the displacements of each particle and their masses that stays in uniform motion with the absence of external forces. This function becomes useful, so we give it a name: the center of mass.

The fact that the C.M. of a collection of particles remains in uniform motion in the absence of external forces is kind of the 1st law for collections of particles (but note that the proper 1st law still holds for all the individual particles that make up our collection).
 

Related to Question on Newton's first law of motion

What is Newton's first law of motion?

Newton's first law of motion, also known as the law of inertia, states that an object at rest will remain at rest and an object in motion will remain in motion at a constant velocity unless acted upon by an external force.

What is the significance of Newton's first law of motion?

This law is significant because it is the basis for understanding the behavior of objects in motion and the concept of inertia, which is the tendency of an object to resist changes in its state of motion.

Can you give an example of Newton's first law of motion?

Yes, an example of this law is when a soccer ball is kicked on a flat and smooth surface, it will continue to roll at a constant speed until it is stopped by an external force, such as friction.

How does Newton's first law of motion differ from the second and third laws?

Newton's first law deals with the behavior of objects at rest or in motion with no external forces acting on them. The second law explains the relationship between force, mass, and acceleration, while the third law states that for every action, there is an equal and opposite reaction.

Can Newton's first law of motion be violated?

No, Newton's first law is a fundamental law of physics and has been proven through countless experiments and observations. It applies to all objects in the universe and cannot be violated.

Similar threads

I Application of the first law of thermodynamics
    • Thermodynamics
2
Replies
46
Views
2K
Newton's first law and a body on an infinite and frictionless road
    • Thermodynamics
Replies
16
Views
986
Newton's first law of motion and Inertial Systems
    • Thermodynamics
Replies
2
Views
1K
Experiment on Newtons First Law
    • Thermodynamics
Replies
2
Views
1K
The Confusion of Weight and Mass in Physics Education
    • Thermodynamics
Replies
17
Views
1K
Does Newton's or Galileo's first law depend on gravity?
    • Thermodynamics
Replies
4
Views
1K
Is Newton's Second Law Flawed? An Exploration of Zero Force in Space
    • Thermodynamics
Replies
14
Views
7K
I About Reversible vs Irreversible Gas Compression and Expansion Work
    • Thermodynamics
Replies
4
Views
895
Newton's First Law: At Rest or In Motion?
    • Thermodynamics
Replies
6
Views
2K
Center of mass, Newton's third law, and rocket thrust
    • Thermodynamics
Replies
8
Views
2K

Hot Threads

Recent Insights

Back
Top