Advanced Physics Forums - Particle Physics

Advanced Physics Forums - Particle Physics http://www.advancedphysics.org/forum Having trouble conserving parity? Find your pions here. en Thu, 09 Sep 2010 13:02:19 GMT vBulletin 60 http://www.advancedphysics.org/forum/vb3bluesaint/misc/rss.jpg Advanced Physics Forums - Particle Physics http://www.advancedphysics.org/forum A Strange Prediction about Gravitons http://www.advancedphysics.org/forum/showthread.php?t=15060&goto=newpost Wed, 08 Sep 2010 01:47:35 GMT Prediction: There are 2 Gravitons Proof: First consider the general concept of charge. So.. - ALL charges have exactly 2 polarities. - Gravity has ONE charge (mass) - Electromagnetic force has ONE charge (electrical charge) - Color Force has THREE charges (color charges, R, G, B) Prediction: There are 2 Gravitons

Proof:

First consider the general concept of charge. So..

- ALL charges have exactly 2 polarities.
- Gravity has ONE charge (mass)
- Electromagnetic force has ONE charge (electrical charge)
- Color Force has THREE charges (color charges, R, G, B)
- Weak Force has ONE charge (isospin)

But, we know that the electromagnetic and weak forces can be united into a single "electroweak" force. So, this force has TWO charges, so we get the charge count for various forces: Gravity ONE, Electroweak TWO, Color THREE.

Now consider the particles that mediate each force. These are the field bosons who's exchange generates the force. How many field bosons does each force have?

For ANY force field..
Number of Field Bosons = (Charge Polarity)^(Number of Charges) = 2^(Number of Charges)

This gives:

Electroweak = 2^2 = 4 = (correct: these are the photon, W+, W-, Z)
Color = 2^3 = 8 = (correct: there are exactly 8 gluons)
Gravity = 2^1 = 2

Thus there are 2 gravitons ;-) ]]> Particle Physics abbottsys http://www.advancedphysics.org/forum/showthread.php?t=15060 Proton Proton collision http://www.advancedphysics.org/forum/showthread.php?t=15042&goto=newpost Fri, 13 Aug 2010 15:38:07 GMT If we know the angle of collision and the momentum of each we can predict the direction and energy of the resulting photon. How does the standard model of particle physics know for certain at very high energies that the temporary debris is not some sort of waveform? If we know the angle of collision and the momentum of each we can predict the direction and energy of the resulting photon. How does the standard model of particle physics know for certain at very high energies that the temporary debris is not some sort of waveform? ]]> Particle Physics Screen Name http://www.advancedphysics.org/forum/showthread.php?t=15042 fifth state of matter http://www.advancedphysics.org/forum/showthread.php?t=15027&goto=newpost Sat, 31 Jul 2010 10:14:45 GMT whats the fifth state of matter??? whats the fifth state of matter??? ]]> Particle Physics Riley http://www.advancedphysics.org/forum/showthread.php?t=15027