roger said:What Is The Cause Of Mass For Particles And For Things In General?
Chronos said:The most fashionable current explanation for mass is the Higgs boson - which, also of course, no one has been able to detect to date. We might find one next year tho...
Calculex said:There would be no gravity, and no distance or time
I am not sure it would have any meaning. We measure time as the rate at which things change relative to some standard or reference rate at which things change. If there are no 'things' to change, what would time mean?KaneOris said:Time does not rely on mass, time is not effected by our dimesions. Time will continue after nothingness.(Personal Theory Belief)
If there are no 'things' to change, what would time mean?time does not require mass
The fusion of an iron atom with another atom would create a nucleus with more rest mass than the original nuclei, at the expense of their kinetic energy. Such reactions do not occur naturally except during stellar core collapses.Jeff Reid said:Are there any nuclear reactions where the end result is more mass and less energy?
Like light? Where would it come from? Where would it be going? What frame of reference would you use to determine distance? How fast would a light beam be traveling relative to another light beam? In the absence of mass, these questions seem to have no meaning. Mass seems to be an inherent property of the lack of nothingness.Jeff Reid said:Even without mass, there could be beams of energy moving all around. So there would still be change.
KaneOris said:Time does not rely on mass, time is not effected by our dimesions. Time will continue after nothingness.(Personal Theory Belief)
Even without mass, there could be beams of energy moving all around. So there would still be change.
From the last matter / anti-matter collision in the universe. Assume several of these happened before all mass was converted into engergy. Now you have several pulses of light traveling through space.Like light? Where would it come from?
Vern said:Mass is electromagnetic change. Think aout it. Whether that change is in the form of the higgs boson or something yet unknown the concept still works. Any equation that describes mass can be reduced down to one variable and a few constants. The variable is always some form of electromagnetic change.
Keep on chuggin !
Vern
Jeff Reid said:From the last matter / anti-matter collision in the universe. Assume several of these happened before all mass was converted into engergy. Now you have several pulses of light traveling through space.
roger said:Dear vern,
Please can you expand on this.
A change of what to what ?
What is the one variable and a few constants you refer to ?
Thanks.
Roger
Mass is a fundamental property of matter that measures the amount of matter an object contains. It is important in understanding particles and objects because it helps us understand their behavior and interactions with other objects.
Mass is a measure of the amount of matter an object contains, while weight is a measure of the force of gravity acting on an object. Mass is constant, but weight can vary depending on the strength of the gravitational field.
Scientists use various methods such as weighing, measuring the acceleration of an object, or using equations such as Newton's second law of motion to determine the mass of particles and objects.
In Einstein's theory of relativity, mass and energy are equivalent and can be converted into each other. This means that mass plays a crucial role in understanding the behavior of objects in the universe.
No, according to the law of conservation of mass, mass cannot be created or destroyed. It can only be transformed into different forms, such as energy.