We have shown throughout this blog there would be many theoretical advantages to defining the universe in terms of four *spatial* dimensions instead of four dimensional space-time. One of them is that it would allow for theoretically defining a common mechanism for gravity and the color charge of quarks by extrapolating observations made in a three-dimensional … Read more
We have shown throughout this blog there are many theoretical advantages to assuming space is composed of four *spatial* dimensions instead of four-dimensional space-time. One of them is that it would allow one to explain the” reality” of the probabilities associated with quantum mechanical wave function in terms of the classical laws of three-dimensional space. Quantum … Read more
We have postulated throughout this blog that one can derive all the forces of nature by extrapolating the laws governing a three-dimensional environment to one made up of four *spatial* dimensions. If so one should be able to derive the strong force in those terms. The strong force, also known as the strong interaction, is the … Read more
We have shown throughout the this blog that one can derive all the forces of nature by extrapolating the classical laws governing a three-dimensional environment to one made up of four *spatial* dimensions. If so one should be able to define the weak force in those terms. The weak force is responsible for changing to … Read more
The effort to unify all of the forces and laws of nature or find a “Theory of Everything” has primarily focused on explaining gravity in terms of the concepts contained in quantum mechanical field theories. However, it is unfortunate that some have not made an effort to find it in terms of its continuous properties … Read more