Question:

Let the image of the point P(1, 2, 3) in the line
\(L:\frac{x−6}{3}=\frac{y−1}{2}=\frac{z−2}{3} \)
be Q. Let R (α, β, γ) be a point that divides internally the line segment PQ in the ratio 1 : 3. Then the value of 22(α + β + γ) is equal to ________.

Updated On: Sep 24, 2024

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Correct Answer: 125

Solution and Explanation

The correct answer is 125
The point dividing PQ in the ratio 1 : 3 will be mid-point of P & foot of perpendicular from P on the line.
∴ Let a point on line be λ
\(⇒\frac{x−6}{3}=\frac{y−1}{2}=\frac{z−2}{3}=λ\)
\(⇒P^′(3λ+6,2λ+1,3λ+2)\)
as P′ is foot of perpendicular
(3λ + 5)3 + (2λ – 1)2 + (3λ – 1)3 = 0
⇒ 22λ + 15 – 2 – 3 = 0
⇒λ=−5/11
\(∴P^′(\frac{51}{11},\frac{1}{11},\frac{7}{11})\)
Mid-point of PP’
\(≡(\frac{\frac{51}{11}+1}{2},\frac{\frac{1}{11}+2}{2},\frac{\frac{7}{11}+3}{2})≡(\frac{62}{22},\frac{23}{22},\frac{40}{22})≡(α,β,γ)\)
⇒ 22(α + β + γ)
= 62 + 23 + 40 = 125

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Top Questions on Three Dimensional Geometry

Let y ∈ R be such that the lines \(L_1:\frac{x+11}{1}=\frac{y+21}{2}=\frac{z+29}{3}\) and \(L_2:\frac{x+16}{3}=\frac{y+11}{2}=\frac{z+4}{\gamma}\) intersect. Let R₁ be the point of intersection of L₁ and L₂. Let O = (0, 0 ,0), and \(\hat{n}\) denote a unit normal vector to the plane containing both the lines L₁ and L₂.
Match each entry in List-I to the correct entry in List-II.

List - I		List - II
(P)	γ equals	(1)	\(-\hat{i}-\hat{j}+\hat{k}\)
(Q)	A possible choice for \(\hat{n}\) is	(2)	\(\sqrt{\frac{3}{2}}\)
(R)	\(\overrightarrow{OR_1}\) equals	(3)	1
(S)	A possible value of \(\overrightarrow{OR_1}.\hat{n}\) is	(4)	\(\frac{1}{\sqrt6}\hat{i}-\frac{2}{\sqrt6}\hat{j}+\frac{1}{\sqrt6}\hat{k}\)
		(5)	\(\sqrt{\frac{2}{3}}\)

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JEE Advanced - 2024
Mathematics
Three Dimensional Geometry

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Concepts Used:

Three Dimensional Geometry

Mathematically, Geometry is one of the most important topics. The concepts of Geometry are derived w.r.t. the planes. So, Geometry is divided into three major categories based on its dimensions which are one-dimensional geometry, two-dimensional geometry, and three-dimensional geometry.

Direction Cosines and Direction Ratios of Line:

Consider a line L that is passing through the three-dimensional plane. Now, x,y and z are the axes of the plane and α,β, and γ are the three angles the line makes with these axes. These are commonly known as the direction angles of the plane. So, appropriately, we can say that cosα, cosβ, and cosγ are the direction cosines of the given line L.

Let the image of the point P(1, 2, 3) in the line \(L:\frac{x−6}{3}=\frac{y−1}{2}=\frac{z−2}{3} \)be Q. Let R (α, β, γ) be a point that divides internally the line segment PQ in the ratio 1 : 3. Then the value of 22(α + β + γ) is equal to ________.