A Portal Special Presentation- Geometric Unity: A First Look: Difference between revisions

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<p>[01:40:08] Well, because the curvature.
<p>[01:40:08] Well, because the curvature.


<p>[01:40:22] So you have Shiab???
<p>[01:40:22] So you have Shiab because the curvature of a connection hit by a gauge transformation is equal on the nose.


<p>[01:40:28] because the curvature of a connection hit by a gauge transformation is equal on the nose.
<p>[01:40:42] adjoint action on the lie algebra of the curvature. We know that if we have two possible actions of conjugation under a bracket and the bracket respects the action of the gauge group, we know that this is going to be well preserved. In other words, we're going to get a form that is gauged in variant relative to the tilted gauge group.
 
<p>[01:40:42] adjoint action on the lie algebra of the curvature. We know that if we have two possible actions of conjugation under a bracket and the bracket, Mmm respects the action of the gauge group, we know that this is going to be well preserved. In other words, we're going to get a form that is gauged in variant relative to the tilted gauge group.


<p>[01:41:08] And so as a result, we now have the possibility for equations of motion, which are well-defined. Uh, even though they involve projection operators, because we've built the symmetries into the theory and we're working on a group manifold to begin with.
<p>[01:41:08] And so as a result, we now have the possibility for equations of motion, which are well-defined. Uh, even though they involve projection operators, because we've built the symmetries into the theory and we're working on a group manifold to begin with.
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