instead: (:) · ()- = ac – bd. a) Suppose that we also define a hyperbolic analogue of a rotation, using hyperbolic sine and cosine. A hyperbolic “rotation "is now given by (xcosh(0) + ysinh(0)\ ) = (sinh(0) + ycosh(0)) Rhyp(0)

Please help. This problem involves verifying rotation properties through dot products. One picture shows the first part and the other shows the second part. Thank you.

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Problem 15. Suppose that we change the definition of the dot product, defining a hyperbolic product *, where we introduce a negative sign and we have 3

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instead: (6) - () = ac – bd. d. a) Suppose that we also define a hyperbolic analogue of a rotation, using hyperbolic sine and cosine. A hyperbolic “rotation "is now given by Rap(0) () - (xcosh(0) + ysinh(0) xsinh(0) + ycosh(0), Perhaps watching again the video on the dot product of January 13, show that this new version of the dot product is invariant under a hyperbolic rotation: Rhyp(0)u * Rhyp(0)v = u * v b) Determine and clearly draw the regions in the plane where vectors u = satisfy u * u = 0, and the regions where u * u > 0 and u * u < 0.