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Question
If the lines y = 3x + 1 and 2y = x + 3 are equally inclined to the line y = mx + 4, find the value of m.
Solution
Equation of line AB, Slope of y = 3x + 1 = 3
Equation of line BC, y = mx + 4, slope = m
If there is an angle θ between them, then
`tan θ = ("m" - 3)/(1 + 3"m")` ..........(i)
Equation of line AC, 2y = x + 3
or y = `1/2 "x" + 3/2`
Slope of AC = `1/2`
When the angle between AB and AC is θ, then
`tan θ = ± ("m" - 1/2)/(1/2"m") = ±(2"m" - 1)/(2 + "m")` .......(ii)
From equation (i) and equation (ii),
`("m" - 3)/(1 + 3"m") = ± (2"m" - 1)/(2 + "m")`
with +ve sign, `("m" - 3)/(1 + 3"m") = ± (2"m" - 1)/(2 + "m")`
∴ (2m − 1)(3m + 1) = (m + 2)(m − 3)
or 6m2 − m − 1 = m2 − m − 6
∴ m2 = −1 is not valid.
with -ve sign, `("m" - 3)/(1 + 3"m") = -(2"m" - 1)/(2 + "m")`
(3m + 1)(2m − 1) + (m + 3)(m + 2) = 0
or (6m2 − m − 1) + (m2 − m − 6) = 0
or 7m2 − 2m − 7 = 0
∴ m = `(2 ± sqrt(4 + 4 xx 49))/14`
= `(2 ± sqrt(200))/14`
= `(2 ± 10sqrt2)/14`
= `(1 ± 5sqrt2)/7`
Hence, required value of m = `(1 ± 5sqrt2)/7`.
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