Read the book The atom and The universe: Theories and Facts unfold, published by www.Xlibris.com
Antiparticles for many particles have been discovered, including antiprotons, antineutrons, and antielectrons (a.k.a. positrons).
Anti-electron (also known as positron), antiproton, antineutron, etc.
Electrons. (Or positrons if you're talking about antimatter)
Protons
This particle was the electron discovered in 1897 by Joseph John Thomson.
The neutron was discovered by James Chadwick in 1932.
The main disadvantage about antimatter is that it must be held away from its "ordinary" particle, preferably in a vacuum. This is because when they come into contact they completely eliminate each other. It's like if you add 1 with -1 it makes zero. However, if held properly, it can be excellent for research as we currently know very little about it. For example we don't know why there is so much more ordinary matter than antimatter.
The true name of the so called (by non specialists) god particle is the Higgs boson; this particle was predicted but not discovered until now. The Higgs boson is not the equivalent of the antimatter.
Antimatter was discovered in 1928 by Paul Dirac.
The person who discovered antimatter was Paul Dirac. Paul Dirac.
Antimatter was discovered in 1928 by Paul Dirac.
An antilambda is the antimatter equivalent of a lambda particle.
A tremendous release of energy in the form of an explosion.
Initially the 9g of remaining matter would survive. Each particle of antimatter can only annihilate with one other particle of antimatter. At this point the 1g of antimatter would cause an explosion equivalent to that of 200000 pounds of TNT. Causing both groups of matter and antimatter to be obliterated.
This is beta decay, specifically beta plus decay. The beta particle that appears is the positron, which is the antimatter particle of the electron. Links can be found below for more information.
Anti-matter. Antimatter.
Antimatter was discovered by Paul Dirac in 1928.
Yes. Antiparticles are regularly produced and observed in particle accelerators.
This particle was the electron in 1897 (J.J. Thomson).