Vector spaces: Vector spaces and linear subspaces
The notion of vector space
Here is a derivation of the equality #\vec{0}+\vec{v}=\vec{v}# for each vector #\vec{v}# of a vector space: \[\vec{0}+\vec{v}=\vec{v}+\vec{0}=\vec{v}\]
In this derivation, two properties of vector calculus are being used: one in each step. Which?
In this derivation, two properties of vector calculus are being used: one in each step. Which?
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