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Using the scalar triple product to prove that vectors are coplanar

Formula for the scalar triple product

The scalar triple product ???|a\cdot(b\times c)|??? of three vectors ???a\langle{a_1},a_2,a_3\rangle???, ???b\langle{b_1},b_2,b_3\rangle??? and ???c\langle{c_1},c_2,c_3\rangle??? will be equal to ???0??? when the vectors are coplanar, which means that the vectors all lie in the same plane.

???a???, ???b???, and ???c??? are coplanar if ???|a\cdot(b\times c)|=0???

???b\times c??? is the cross product of ???b??? and ???c???, and we’ll find it using the ???3\times 3??? matrix

???\begin{vmatrix}\bold i&\bold j&\bold k\\b_1&b_2&b_3\\c_1&c_2&c_3\end{vmatrix}=\bold i\begin{vmatrix}b_2&b_3\\c_2&c_3\end{vmatrix}-\bold j\begin{vmatrix}b_1&b_3\\c_1&c_3\end{vmatrix}+\bold k\begin{vmatrix}b_1&b_2\\c_1&c_2\end{vmatrix}???

???=\bold i(b_2c_3-b_3c_2)-\bold j(b_1c_3-b_3c_1)+\bold k(b_1c_2-b_2c_1)???

We’ll convert the result of the cross product into standard vector form, and then take the dot product of ???a\langle{a_1},a_2,a_3\rangle??? and the vector result of ???b\times c???.

???|a\cdot(b\times c)|???

The final answer is the scalar triple product. If it’s equal to ???0???, then we’ve proven that the vectors are coplanar.

How to use the scalar triple product to verify that three vectors are coplanar (that they lie in the same plane)


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Proving that the vectors are coplanar

Example

Prove that the vectors are coplanar.

???a\langle3,3,-3\rangle???

???b\langle1,0,-2\rangle???

???c\langle2,3,-1\rangle???

We’ll use the scalar triple product, and we’ll start by calculating the cross product of ???b??? and ???c???, ???b\times c???.

???b\times c=\begin{vmatrix}\bold i&\bold j&\bold k\\1&0&-2\\2&3&-1\end{vmatrix}???

???b\times c=\bold i\begin{vmatrix}0&-2\\3&-1\end{vmatrix}-\bold j\begin{vmatrix}1&-2\\2&-1\end{vmatrix}+\bold k\begin{vmatrix}1&0\\2&3\end{vmatrix}???

???b\times c=\bold i[(0)(-1)-(-2)(3)]-\bold j[(1)(-1)-(-2)(2)]+\bold k[(1)(3)-(0)(2)]???

???b\times c=\bold i(0+6)-\bold j(-1+4)+\bold k(3-0)???

???b\times c=6\bold i-3\bold j+3\bold k???

???b\times c=\langle6,-3,3\rangle???

Next we’ll take the dot product of ???a\langle3,3,-3\rangle??? and ???b\times c=\langle6,-3,3\rangle???.

???|a\cdot(b\times c)|=(3)(6)+(3)(-3)+(-3)(3)???

???|a\cdot(b\times c)|=18-9-9???

???|a\cdot(b\times c)|=0???

Since the scalar triple product of the vectors ???a\langle3,3,-3\rangle???, ???b\langle1,0,-2\rangle??? and ???c\langle2,3,-1\rangle??? is equal to ???0???,

???|a\cdot(b\times c)|=0???

the vectors ???a???, ???b???, and ???c??? are coplanar.


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