Davisson and Germer

4. Explaining mass and its resistance to acceleration in terms of the field properties of space time.

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Mass is both a property of a physical body and a measure of its resistance to acceleration (a change in its state of motion) when a net force is applied. The Higgs boson discovered at the CERN particle physics laboratory near Geneva, Switzerland, in 2012, is what, according to the Standard Model of particle physics gives all other fundamental particles mass. However, despite the work of thousands of researchers … Read more

Deriving mass without the Higgs Boson

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Einstein told us that energy and mass are interchangeable however he did not define what mass is.  He only told us how mass interacts with space-time. As Steven Weinberg said “Mass tells space-time how to curve while space-time tells mass how to move”. However Einstein’s inability to define or derive the casualty of mass is … Read more

The relative masses of a proton and electron

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We have shown throughout this blog there would be many theoretical advantages to defining space in terms of a continuous non-quantized field of energy/mass and four *spatial* dimensions instead of four dimensional space-time. One is that it would allow one to understand why a proton and an election have different masses even though the absolute magnitude … Read more

The Strong force in four *spatial* dimensions

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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

The weak force in four *spatial* dimensions

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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