A line, with a slope greater than one, passes through point A(4, 3) and intersects the line x – y – 2 = 0 at the point B. If the length of the line segment AB is \(\frac{\sqrt{29}}{3}\) then B also lies on the line :
- 2x + y = 9
- 3x – 2y = 7
- x + 2y = 6
- 2x – 3y = 3
The Correct Option is C
Solution and Explanation
Let the inclination of the required line be θ,
So the coordinates of point B can be assumed as
(4−\(\frac{\sqrt{29}}{3}\)cosθ,3−\(\frac{\sqrt{29}}{3}\)sinθ)
Which satisfices x – y – 2 = 0
4−\(\frac{\sqrt{29}}{3}\)cosθ−3+\(\frac{\sqrt{29}}{3}\)sinθ−2=0
sinθ−cosθ=\(\frac{3}{\sqrt{29}}\)
By squaring
sin2θ=\(\frac{20}{29}\)=\(\frac{2tan\theta}{1+tan2\theta}\)
tanθ=\(\frac{5}{2}\) only (because the slope is greater than 1)
sinθ=\(\frac{5}{\sqrt{29}}\), cosθ=\(\frac{2}{\sqrt{29}}\)
Point B:(\(\frac{10}{3}\),\(\frac{4}{3}\))
Which also satisfies x + 2y = 6
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Concepts Used:
Coplanarity of Two Lines
Condition for Coplanarity Using Cartesian Form
The condition for coplanarity in the Cartesian form appears from the vector form.
Let's consider two points L (a1, b1, c1) & Q (a2, b2, c2) in the Cartesian plane,
Presuppose that there are two vectors q1 and q2. Their direction ratios are subjected by {x1, y1, z1}, and {x2, y2, z2} respectively.
The vector form of equation of the line in connection to L and Q can be stated as under:
LQ = (a2 – a1)i + (b2 – b1)j + (c2 – c1)k
Q1 = x1i + y1j + z1k
Q2 = x2i + y2j + z2k
Condition for Coplanarity Using Vector Form
For the derivation of the condition for coplanarity in vector form, we shall take into consideration the equations of two straight lines to be as stated below:
r1 = l1 + λq1
r2 = l2 + λq2
The condition for coplanarity in vector form is that the line in connection to the two points should be perpendicular to the product of the two vectors, q1 and q2.