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प्रश्न
Find the general solution of the following equation:
cosθ + sinθ = 1.
उत्तर
cosθ + sinθ = 1
Dividing both sides by `sqrt((1)^2 + (1)^2) = sqrt(2)`, we get
`(1)/sqrt(2)cosθ + (1)/sqrt(2)sinθ = (1)/sqrt(2)`
`∴ cos pi/(4) cosθ + sin pi/(4) sinθ = cos pi/(4)`
∴ `cos(θ - pi/4) = cos pi/(4)` ...(1)
The general solution of cosθ = cos α is θ = 2nπ ± α, n∈Z.
∴ The general solution of (1) is given by
`θ - pi/(4) = 2nπ ± pi/(4)`, n∈Z
Taking positive sign, we get
`θ - pi/(4) = 2nπ + pi/(4)`, n∈Z
∴ θ = 2nπ + `π/2`, n∈Z
Taking negative sign, we get,
`θ - pi/(4) = 2nπ - pi/(4)`, n∈Z
∴ θ = 2nπ, n∈Z
∴ The required general solution is θ = `2nπ + pi/2`, n∈Z or θ = 2nπ, n∈Z.
Alternative Method:
cosθ + sinθ = 1
∴ sinθ = 1 – cosθ
∴ `2sin θ/(2) cos θ/(2) = 2sin^2 θ/(2)`
∴ `2sin θ/(2) cos θ/(2) - 2sin^2 θ/(2)` = 0
∴ `2sin θ/(2)(cos θ/2 - sin θ/2)` = 0
∴ `2sin θ/(2) = 0 or cos θ/(2) - sin θ/(2)` = 0
∴ `sin θ/(2) = 0 or sin θ/(2) = cos θ/(2)`
∴ `sin θ/(2) = 0 or tan θ/(2) = 1 ...[∵ cos θ/(2) ≠ 0]`
∴ `sin θ/(2) = 0 or tan θ/(2) = tan pi/(4) ...[∵ tan pi/(4) = 1]`
The general solution of sin θ = 0 is θ = nπ, n∈Z and tan θ = tan α is θ = nπ + α, n∈Z.
∴ The required general solution is `θ/(2)` = nπ, n∈Z or `θ/(2)` = nπ + `pi/(4)`, n∈Z
i.e. θ = 2nπ, n∈Z or θ = `2nπ + pi/(2)`, n∈Z.
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