Man sod all those others.
What you need to do is reconfigure the equations into 4 dimensional waveforms.
Use 4D clifford Geometric analysis with the convergence of the scalar and outer product.
Thsi will lend to the reformatting of maxwells equations into "DeltaJ=0" and should give similar amazing equations for your quantum work. also lorrentzian tranformations are easy to compute in 4d as they just become a rotaion in spacetime.
Once you have all these things, type in your original equations and use simple algorithms to export data into matlab. this givving you a very groovy video of quantum tunnelling and wave particle duality as you see the particle smear.
Also you will have found yourself the GUT. well done you. i doff my cap. God your amazing. Your mother must be so proud.
The only problem here is that A * B where A and B are multivectors will take 256 unique calculations.
Have Fun
Tabs
Slashdot Mirror
Man sod all those others. What you need to do is reconfigure the equations into 4 dimensional waveforms. Use 4D clifford Geometric analysis with the convergence of the scalar and outer product. Thsi will lend to the reformatting of maxwells equations into "DeltaJ=0" and should give similar amazing equations for your quantum work. also lorrentzian tranformations are easy to compute in 4d as they just become a rotaion in spacetime. Once you have all these things, type in your original equations and use simple algorithms to export data into matlab. this givving you a very groovy video of quantum tunnelling and wave particle duality as you see the particle smear. Also you will have found yourself the GUT. well done you. i doff my cap. God your amazing. Your mother must be so proud. The only problem here is that A * B where A and B are multivectors will take 256 unique calculations. Have Fun Tabs