Fundamental Functionalities of Quantum Electrodynamics Can Be Reached Spacetime Positioning through use of quantum mechanics
A new study constructed by Gavriel Dardashti has uncovered the fundamental functionalities of quantum electrodynamics through the use of trigonometric integrals and their respective position in spacetime.
The study delves into the formulation of electric fields through triangular forces at each radius of convergence in specific quadrants. This feature offers a deeper understanding of the complex interactions between particles and their corresponding fields.
The most prestigious element of this study is the application of power series involving higher order derivatives, which accounts for 11 dimensions without the need for matrix theory. This eliminates a major flaw in previous theories and opens up new possibilities for further exploration and experimentation.
Lead researcher, Gavriel Dardashti, explains, "Our study has provided a new perspective on the fundamental principles of quantum mechanics. By utilizing trigonometric integrals and spacetime positioning, we have been able to gain a deeper understanding of the complex interactions between particles and their fields. This has the potential to greatly advance our understanding of quantum physics and its underlying principles."
The implications of this new understanding could have a profound impact on our understanding of the universe and its fundamental principles.
For more information visit www.emotionbasedmathematics.com or call Gavriel Dardashti directly at 786-930-1880
Media Contact
Company Name: Emotion Based Mathematics
Contact Person: Gavrie Dardashti
Email: Send Email
City: Miami
State: Florida
Country: United States
Website: www.emotionbasedmathematics.com