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प्रश्न
Find a vector of magnitude 26 units normal to the plane 12x − 3y + 4z = 1.
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उत्तर
The given equation of the plane is
\[12x - 3y + 4z = 1\]
` ⇒ \left( x\hat{ i } +y \hat{ j }+ z \hat{ k} \right) . \left( \text{ 12} \hat{ i } - \text{ 3 }\hat{ j } + 4 \hat{ k } \right) = 1 `
` ⇒ \vec{r} . \left( \text{ 12 } \hat{ i } - \text{ 3 }\hat{ j } + 4\hat{ k} \right) = 1,\text{ which is the vector equation of the plane.}`
`\text{ Because the vector equation of the plane is } \vec{r} . \vec{n} = \vec{a} . \vec{n} )`
`\text{ So, the normal vector, }\vec{n} = \text{ 12 }\hat{ i } - \text{ 3 }\hat{ j } + 4\hat{ k }`
\[\left| \vec{n} \right| = \sqrt{144 + 9 + 16} = 13\]
`\text{ Unit vector parallel to }\vec{n} = \frac{\vec{n}}{| \vec{n} |} = \frac{\text{ 12 }\hat{ i } - \text{ 3 }\hat{ j } + 4 \hat{ k }}{13}`
So, the vector of magnitude 26 units normal to the plane
`= 26 \times \frac{\text{ 12 } \hat{ i } - \text{ 3 }\hat{ j} + 4\hat{ k }}{13}`
`= 2 \left( \text{ 12 }\hat{ i }- \text{ 3 }\hat{ j } + 4 \hat{ k } )`
`= \text{ 24 }\hat{ i } - \text{ 6 }\hat{ i } + 8 \hat{ k } `
\[\]
\[\]
