Question:
The sum of all values of $\alpha$, for which the shortest distance between the lines
$\dfrac{x+1}{\alpha}=\dfrac{y-2}{-1}=\dfrac{z-4}{-\alpha}$ and
$\dfrac{x}{\alpha}=\dfrac{y-1}{2}=\dfrac{z-1}{2\alpha}$ is $\sqrt{2}$, is
The sum of all values of $\alpha$, for which the shortest distance between the lines
$\dfrac{x+1}{\alpha}=\dfrac{y-2}{-1}=\dfrac{z-4}{-\alpha}$ and
$\dfrac{x}{\alpha}=\dfrac{y-1}{2}=\dfrac{z-1}{2\alpha}$ is $\sqrt{2}$, is
Show Hint
For skew lines, always use vector cross product method to find the shortest distance.
Updated On: Feb 5, 2026
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The Correct Option is B
Solution and Explanation
Step 1: Identify direction vectors.
\[ \vec{d_1}=\langle \alpha,-1,-\alpha\rangle,\quad \vec{d_2}=\langle \alpha,2,2\alpha\rangle \] Step 2: Find vector joining points.
\[ \vec{r}=\langle 1,-1,3\rangle \] Step 3: Apply shortest distance formula.
\[ D=\frac{|\vec{r}\cdot(\vec{d_1}\times\vec{d_2})|}{|\vec{d_1}\times\vec{d_2}|} \] Step 4: Equate to $\sqrt{2}$.
Solving gives \[ \alpha=-2,\ -4 \] Step 5: Sum of all values.
\[ -2+(-4)=-6 \]
\[ \vec{d_1}=\langle \alpha,-1,-\alpha\rangle,\quad \vec{d_2}=\langle \alpha,2,2\alpha\rangle \] Step 2: Find vector joining points.
\[ \vec{r}=\langle 1,-1,3\rangle \] Step 3: Apply shortest distance formula.
\[ D=\frac{|\vec{r}\cdot(\vec{d_1}\times\vec{d_2})|}{|\vec{d_1}\times\vec{d_2}|} \] Step 4: Equate to $\sqrt{2}$.
Solving gives \[ \alpha=-2,\ -4 \] Step 5: Sum of all values.
\[ -2+(-4)=-6 \]
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