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Question
If 1 + sin2θ = 3 sin θ cos θ, then prove that tan θ = 1 or `1/2`.
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Solution 1
Given: 1 + sin2 θ = 3 sin θ cos θ
Dividing L.H.S and R.H.S equations with sin2θ,
We get,
`(1 + sin^2 theta)/(sin^2 theta) = (3 sin theta cos theta)/(sin^2 theta)`
`\implies 1/(sin^2 theta) + 1 = (3 cos theta)/sintheta`
cosec2 θ + 1 = 3 cot θ
Since, cosec2 θ – cot2 θ = 1
`\implies` cosec2 θ = cot2 θ + 1
`\implies` cot2 θ + 1 + 1 = 3 cot θ
`\implies` cot2 θ + 2 = 3 cot θ
`\implies` cot2 θ – 3 cot θ + 2 = 0
Splitting the middle term and then solving the equation,
`\implies` cot2 θ – cot θ – 2 cot θ + 2 = 0
`\implies` cot θ(cot θ – 1) – 2(cot θ + 1) = 0
`\implies` (cot θ – 1)(cot θ – 2) = 0
`\implies` cot θ = 1, 2
Since,
tan θ = `1/cot θ`
tan θ = `1, 1/2`
Hence proved.
Solution 2
Given, 1 + sin2 θ = 3 sin θ cos θ
On dividing by sin2 θ on both sides, we get
`1/(sin^2θ) + 1 = 3 cot θ` ...`[∵ cot θ = cos θ/sin θ]`
⇒ cosec2 θ + 1 = 3 cot θ
⇒ 1 + cot2 θ + 1 = 3 cot θ
⇒ cot2 θ – 3 cot θ + 2 = 0
⇒ cot2 θ – 2 cot θ – cot θ + 2 = 0
⇒ cot θ (cot θ – 2) – 1(cot θ – 2) = 0
⇒ (cot θ – 2) (cot θ – 1) = 0
⇒ cot θ = 1 or 2
tan θ = 1 or `1/2`
Hence proved.
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