Let d be the distance between the foot of perpendiculars of the point P(1, 2, –1) and Q(2, –1, 3) on the plane –x + y + z = 1. Then d2 is equal to ____.
Correct Answer: 26
Solution and Explanation
The correct answer is: 26
To find the distance between a point and a plane, we can use the formula for the distance from a point \((x_0,y_0,z_0)\) to a plane \(A_x+B_y+C_z+D=0:\)
\(d = \frac{\left|Ax_0 + By_0 + Cz_0 + D\right|}{\sqrt{A^2 + B^2 + C^2}}\)
In this case, the equation of the plane is \(−x+y+z−1=0\), so \(A=−1, B=1, C=1,\) and \(D=−1.\)
Let's use this formula for both points \(P(1,2,−1)\) and \(Q(2,−1,3)\), and then find the square of the distance \(d^2\):
For point P(1,2,−1): \(d_P = \frac{\left|(-1)(1) + (1)(2) + (1)(-1) - 1\right|}{\sqrt{(-1)^2 + (1)^2 + (1)^2}}\)
For point Q(2,−1,3): \(d_Q = \frac{\left|(-1)(2) + (1)(-1) + (1)(3) - 1\right|}{\sqrt{(-1)^2 + (1)^2 + (1)^2}}\)
Now, calculate \(d_P\) and \(d_Q\), and then find \(d^2 = d_P^2 + d_Q^2\). The squared distance \(d^2\) is equal to 26.
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Concepts Used:
Plane
A surface comprising all the straight lines that join any two points lying on it is called a plane in geometry. A plane is defined through any of the following uniquely:
- Using three non-collinear points
- Using a point and a line not on that line
- Using two distinct intersecting lines
- Using two separate parallel lines
Properties of a Plane:
- In a three-dimensional space, if there are two different planes than they are either parallel to each other or intersecting in a line.
- A line could be parallel to a plane, intersects the plane at a single point or is existing in the plane.
- If there are two different lines that are perpendicular to the same plane then they must be parallel to each other.
- If there are two separate planes which are perpendicular to the same line then they must be parallel to each other.