Multiplication of a rotated vector entries

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SUMMARY

The discussion revolves around the multiplication of entries of a rotated vector, specifically expressed as \(\prod_i^3(RP)_i\), where \(R\) is a rotation matrix and \(P\) is a vector in \(\mathbb{R}^3\). The user seeks an alternative to the product operator for simplifying the multiplication of the entries of the rotated vector \(P'\). Bag clarifies that multiplying three rotation matrices results in a single rotation matrix representing a cumulative rotation, but the user is focused on finding a more convenient operation to express the scalar product of the entries of \(P'\).

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baggiano
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Hello

Is there any known operation/notation to express the multiplication of the entries of a rotated vector? More precisely, is there an alternative expression to replace the product operator for the following expression:
\prod_i^3(RP)_i
where R is the rotation matrix and P a vector in R^3.

Thanks in advance for any idea you might have.

Bag
 
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If R is rotation about an axis by angle through the origin by angle \theta then a product of 3 R's rotates by angle 3 \theta and the product of the R's is a rotation matrix for than angle. It that what you're asking?
 
Hi Stephen

Actually what is meant is the following: the rotation matrix R multiplied by the vector P returns the rotated vector P'. Then, the product operator \prod gives me a scalar by multiplying the 3 entries of the vector P'. I was wondering if the last product operation could somehow be described using some other kinds of operators/operations (like for instance a projection). Sorry, the question can look a little naive but the fact that I need to multiply the entries of P' is not very convenient for me as it is difficult to treat.

Thanks for the reply anyway.

Bag
 

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