09/29 - Analogy to Vector Spaces

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Analogy to Vector Spaces

Let the vector be defined as:

    • are the coefficients
    • are the basis vectors
    • A vector basis is a set of n linearly independent vectors capable of generating an n-dimensional subspace of
      • Generating: using a linear combination of n vectors to be able to uniquely identify any part of the n-dimensional space

Dot Product & Inner Product

Dot Product

The dot (scalar) product takes two vectors over the real numbers and returns a real-valued scalar quantity. Geometrically, it will show the projection of one vector onto another.

The dot product of two vectors and is defined as

Inner Product

Since we will be dealing with complex numbers, we need to use the inner product instead of the dot product

The inner product of two vectors and is defined as