![]() The polyvector-valued supersymmetric extension of this polyvector valued bosonic gauge theory in Clifford spaces may reveal more important features of a Clifford-algebraic structure underlying M, F theory. Consequently, any approach to quantum gravity which includes both quantum field theory and the curved spacetime of general relativity, as a minimal requirement. There the gravitational field is represented by a pair of variables: (1) a ‘contact vector’ V. In a curved space, this is no longer true. In a flat space, you'll end up in the same position on both tries. Try doing this: (1) go step forward, then step right. This paper explores this dissonance with particular focus on how gravity couples to matter from the perspective of the Cartan-geometric formulation of gravity. As to why warped space-time creates gravity, it's just from the distances themselves. Kyle Taylor Founder at The Penny Hoarder (2010present) Updated Jul 22 Promoted You’ve done it. However, in standard formulations its mathematical structure is rather different from the Yang–Mills fields of particle physics that govern the electromagnetic, weak, and strong interactions. Einstein's idea (discussed further on our relativity page) was that there is no such thing as a 'force' of gravity which pulls things to the Earth rather, the curved paths that falling objects appear to take are an illusion brought on by our inability to perceive the underlying curvature of the space we live in. What we perceive as gravity is due to the curvature of spacetime, more specifically, it is a consequence of motion through curved spacetime. ![]() Gravity is commonly thought of as one of the four force fields in nature.
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