How can two objects colliding and merging have a bigger mass?

  • Context: Graduate 
  • Thread starter Thread starter edoarad
  • Start date Start date
  • Tags Tags
    Mass
Click For Summary
SUMMARY

The discussion centers on the concept of mass increase during the collision of two equal mass objects, emphasizing that the final mass can exceed the sum of their rest masses due to the conversion of kinetic energy into internal energy. Participants reference Einstein's equation E=mc² to explain how energy contributes to mass, particularly in scenarios involving temperature increases. The discussion highlights that the mass of an object can be influenced by its temperature, with calculations suggested using the relationship between mc² and kT, where k is the Boltzmann constant. The book "Special Relativity" by Resnick is recommended for further reading on this topic.

PREREQUISITES
  • Understanding of Einstein's mass-energy equivalence (E=mc²)
  • Basic knowledge of kinetic energy and its conversion to internal energy
  • Familiarity with temperature's effect on mass, specifically through thermodynamics
  • Knowledge of the Boltzmann constant and its application in physics
NEXT STEPS
  • Study the implications of mass-energy equivalence in particle physics
  • Explore the relationship between temperature and mass using kT and mc²
  • Read "Special Relativity" by Resnick, focusing on section 3.6
  • Investigate the effects of kinetic energy on mass in high-energy collisions
USEFUL FOR

Students of physics, researchers in particle physics, and anyone interested in the principles of mass-energy equivalence and thermodynamics.

edoarad
Messages
19
Reaction score
0
i've read that the mass of two objects which is formed when two equal objects collide must be twice the mass of the moving objects, which is grater then the sum of their rest mass. does it really happen in terms of particles? how is it explained?

thanks,
edo
 
Physics news on Phys.org
I think that the mass of the final object depends on the relative speed of the two objects before colliding, if both have the same rest mass.
 
That is right...the extra kinetic energy must have gone somewhere...we might say that it is converted to heat or some other form of internal energy..but since energy equals mass, this extra energy will give a greater mass to the final system..thus it is also true that you can make a body more massive by just raising its temperature...Please refer the book on special relativity by Resnick...section 3.6..
 
thank you very much.
does a body whose mass has been increased by high temprature acts the same as though he was simply that massive? how hot must something be in order for the added mass not to be neglectable?
 
Heat isn't the only kind of energy. [math]E= mc^2[/math] so [math]m= E/c^2[/math]. How large that has to be to be "not neglectable" depends upon what you consider "negletable".
 
i thought that the energy from e=mc^2 is simply the energy that can be gained by using the mass, is that wrong?
 
Well, it depends on what you mean by "using". E = mc^2 is the amount of energy you'd get if you completely converted the mass into energy. For instance, by reacting matter and antimatter. If that's what you mean by "using", then sure, E = mc^2 is the amount of energy you can get. But a normal definition of "using" probably entails something like nuclear fusion, or burning - some process in which there's still some mass left at the end - and in that case you only get a small fraction of mc^2 as useful energy.
 
edoarad said:
i thought that the energy from e=mc^2 is simply the energy that can be gained by using the mass, is that wrong?
It works both ways: mass contains energy, energy has mass.
 
i think I've got it now, thank you.
 
  • #10
And if you want to do a small calculation to see how temperature can affect mass, just equate mc^2 and kT, where k is the Boltzmann constant and T is the temperature,,,,and calculate T for some amount of mass..
 

Similar threads

High School Does a hot coffee have bigger mass than a cold coffee?
  • · Replies 102 ·
4
Replies
102
Views
7K
Graduate Landau's Maximum Mass Limit Derivation in Shapiro & Teukolsky (1983)
  • · Replies 23 ·
Replies
23
Views
3K
Graduate How Does Linear Framedragging Affect Parallel Moving Masses in Flat Spacetime?
  • · Replies 11 ·
Replies
11
Views
2K
Undergrad Conservation of Energy in GR: A-B System Analysis
  • · Replies 5 ·
Replies
5
Views
2K
Undergrad How does GR deal with pointlike objects with mass?
  • · Replies 5 ·
Replies
5
Views
819
Undergrad How can time only have one direction?
  • · Replies 105 ·
4
Replies
105
Views
6K
Undergrad How Feynman proves momentum is conserved in this example?
  • · Replies 2 ·
Replies
2
Views
1K
Undergrad Objects Moving Close to Light Speed: Mass Difference?
  • · Replies 16 ·
Replies
16
Views
2K
High School How do Black Holes Grow? A Far-Away Observer's Perspective
  • · Replies 67 ·
3
Replies
67
Views
6K
High School How exactly does gravity work?
  • · Replies 81 ·
3
Replies
81
Views
10K