Possible Solution to the Heisenberg Uncertainty Principle
Where is the Electron? AKA New Microscope for Electrons
e- + e+ = 2* Gamma Ray
Uncertainty in position*uncertainty of momentum= plancks constant/4Pi
My experiment will determine the exact position of an electron, using positrons instead of photons. Gamma ray that radiate from annihilation will show the difference between the time the gamma ray reaches the EMF sensors, giving us a time disparity, allowing for the velocity of the electron to be determined.
Finally, once position is known we can solve for velocity. Using a negative anion with 1 valence electron, such as Cl-, we will use an array of Geiger counters to see the difference in radiation levels over periods of time, allowing for the velocity to be determined.
Uncertainty in position*uncertainty of momentum= plancks constant/4Pi
My experiment will determine the exact position of an electron, using positrons instead of photons. Gamma ray that radiate from annihilation will show the difference between the time the gamma ray reaches the EMF sensors, giving us a time disparity, allowing for the velocity of the electron to be determined.
Finally, once position is known we can solve for velocity. Using a negative anion with 1 valence electron, such as Cl-, we will use an array of Geiger counters to see the difference in radiation levels over periods of time, allowing for the velocity to be determined.
