From: utzoo!decvax!duke!phs!jfh Newsgroups: net.space,net.physics Title: Equivalence of Mass and Energy Article-I.D.: phs.648 Posted: Sun Aug 8 17:56:57 1982 Received: Mon Aug 9 04:48:57 1982 I wish to respond to Bob Morris' comments (floyd.428). First, however I want to say that the first sentence of my reply ("Surely you jest!!") was unwarranted, and I apologize to him for it. I have no quarrel with either the assertion that the center of mass does not change during a supernova explosion (within limits of asymmetries), or with relativistic mechanics. However, I believe that Morris has made some erroneous assumptions. "Again, during a supernova explosion, the change in mass is zero, both instantaneously and long term." Consider the fusion of four hydrogen atoms to form helium. (I know the overall reaction is much more complicated than this makes it sound, but please bear with me. This is an approximation for illustration only.) The mass of a hydrogen atom is 1.00797 atomic mass units (amu), so four of them comprise a total mass of 4.03188 amu. However, a helium atom has a mass of only 4.0036 amu. (data from Handbook of Chemistry and Physics, 46th edition) This leaves a difference of 0.02828 amu, which is converted to energy in accordance with Einstein's equation. Surely no one will argue that the mass of four hydrogen atoms is equal to the mass of one helium atom. "Photons do just as good a job of causing gravitation as anything else of the same mass." This is the statement to which my original reply was directed. Photons have no REST mass; hence the are able to move at the speed of light. I believe that this is a requirement for any entity which can attain this velocity, since it can be demonstrated that any massive body would require infinite energy input to reach light speed. I certainly do not deny that photons possess energy, and that this energy is equivalent to a certain mass. However, while I acknowledge that energy and mass are equivalent, it appears to me that Morris is claiming that energy and mass are the SAME. It is not at all clear to me that this is a defensible position. Does a body composed of a certain number and type of particles become more massive if it is strongly heated (vibrational energy is presumably also equivalent to mass)? The crux of the matter seems to reside in the (paraphrased) question asked by Mike Knudson (ihnss.126), "Does energy exert gravity?" Specifically, is it possible for photons to emit gravitons, or is this property reserved to those particles with non-zero rest mass? It is equally unclear that I have illuminated the situation at all. One could presumably argue in the fusion example that as long as you were able to contain all the energy in a closed system things haven't really changed. Does the ability to emit gravitons "define" mass? Comments on these questions or on my interpretation of the arguments are welcome. Although I saw the announcement of net.physics a few minutes ago, I am also posting this to net.space also, just in case. Fran Heidlage duke!phs!jfh