The visualization uses a sphere as a reference shape. The tensor's components define a transformation matrix that warps the sphere into a new shape. You'll see that symmetric tensors create stretches and compressions along specific axes, while anti-symmetric tensors cause a rotation. This is because a general linear transformation can be decomposed into a rotation, a shear, and a stretch—the symmetric part handles the stretch and shear, and the anti-symmetric part handles the rotation.
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$\complement\cdots$Counselor
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how symmetric and anti-symmetric tensors behave by visualizing their effect on a sphere.mp4
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$\gg$Operations and Properties of Tensors
$\ggg$Mathematical Structures Underlying Physical Laws
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