From: Andrew Lorimer Date: Fri, 15 Feb 2019 02:48:56 +0000 (+1100) Subject: Merge branch 'master' of ssh://charles/tank/andrew/school/notes X-Git-Tag: yr12~254 X-Git-Url: https://git.lorimer.id.au/notes.git/diff_plain/3c2583be42e6609cedf9006bcc9911cdd5fbaa73?hp=eecdbc3b9e3bba9272f0e2bbcfd7337e3f7835e1 Merge branch 'master' of ssh://charles/tank/andrew/school/notes --- diff --git a/spec/vectors.md b/spec/vectors.md index db65983..ccdec2f 100644 --- a/spec/vectors.md +++ b/spec/vectors.md @@ -139,7 +139,8 @@ Vector resolute of $\boldsymbol{a}$ in direction of $\boldsymbol{b}$ is magnitud $$\boldsymbol{u}={{\boldsymbol{a}\cdot\boldsymbol{b}}\over |\boldsymbol{b}|^2}\boldsymbol{b}=\left({\boldsymbol{a}\cdot{\boldsymbol{b} \over |\boldsymbol{b}|}}\right)\left({\boldsymbol{b} \over |\boldsymbol{b}|}\right)=(\boldsymbol{a} \cdot \hat{\boldsymbol{b}})\hat{\boldsymbol{b}}$$ -Scalar resolute of $\vec{a}$ on $\vec{b} = |\vec{u}| = \vec{a} \cdot \hat{\vec{b}}$ +Scalar resolute of $\vec{a}$ on $\vec{b} = |\vec{u}| = \vec{a} \cdot \hat{\vec{b}}$ (results in a scalar) +Vector resolute of $\vec{a}$ perpendicular to $b$ is equal to $\vec{a} - \vec{u}$ where $\vec{u}$ is vector projection of $\vec{a}$ on $\vec{b}$ ## Vector proofs