Chapter 12 - Vectors and the Geometry of Space - Review - Concept Check - Page 881: 6

The dot product can be used to test if the two vectors are orthogonal or not that is, perpendicular to each other. $a \cdot b =0$ iff a and b are orthogonal. If the magnitude of $a$ that is, $|a|$ and the magnitude of $b$ that is, $|b|$ is known and the angle between $a$ and $b$ that is, $\theta$ is to be known, the product of the magnitudes and the cosine of the angle is the dot product of $a$ and $b$. $a \cdot b= |a| |b| cos \theta$ To project one vector onto another, in short, to find the component of first vector parallel to second, the dot prodcut is very useful. The projection of $u$ onto $v$ is given as: $\dfrac{u \cdot v}{|v|^2}v$

The dot product can be used to test if the two vectors are orthogonal or not that is, perpendicular to each other. $a \cdot b =0$ iff a and b are orthogonal. If the magnitude of $a$ that is, $|a|$ and the magnitude of $b$ that is, $|b|$ is known and the angle between $a$ and $b$ that is, $\theta$ is to be known, the product of the magnitudes and the cosine of the angle is the dot product of $a$ and $b$. $a \cdot b= |a| |b| cos \theta$ To project one vector onto another, in short, to find the component of first vector parallel to second, the dot prodcut is very useful. The projection of $u$ onto $v$ is given as: $\dfrac{u \cdot v}{|v|^2}v$