Question

if asin theta + bcos theta = c , then prove that acos theta - bsin theta = root a²+b²-c²​

Answer 1

$\huge\mathfrak{Solution}$

asinθ + bcosθ = c

taking square both sides,

(asinθ + bcosθ)² = c²

⇒a²sin²θ + b²cos²θ + 2absinθ.cosθ = c² --------(1)

Let acosθ - bsinθ = x

Squaring both sides

(acosθ - bsinθ)² = x²

⇒a²cos²θ + b²sin²θ -2absinθ.cosθ = x² ------(2)

Add equation (1) and (2),

a²sin²θ + b²cos²θ +2abinθ.cosθ + a²cos²θ + b²sin²θ -2absinθ.cosθ = c² + x²

⇒(a² + b²)cos²θ + (a² +b²)sin²θ = c² + x²

⇒(a² + b²)[sin²θ + cos²θ ] = c² + x²

⇒(a² + b²) = c² + x² [∵ sin²x + cos²x = 1 ]

⇒(a² + b² - c²) = x²

Take square root both sides,

\bold{\pm\sqrt{a^2 + b^2 - c^2} =x}

Hence, acosθ - bsinθ = \bold{\sqrt{a^2 + b^2 - c^2}}

Hope it helpful to you mate if you satisfy then please mark me as brainlest ☺ ✌ ✌

Answer 2

asinθ + bcosθ = c

taking square both sides,

(asinθ + bcosθ)² = c²

⇒a²sin²θ + b²cos²θ + 2absinθ.cosθ = c² --------(1)

Let acosθ - bsinθ = x

Squaring both sides

(acosθ - bsinθ)² = x²

⇒a²cos²θ + b²sin²θ -2absinθ.cosθ = x² ------(2)

Add equation (1) and (2),

a²sin²θ + b²cos²θ +2abinθ.cosθ + a²cos²θ + b²sin²θ -2absinθ.cosθ = c² + x²

⇒(a² + b²)cos²θ + (a² +b²)sin²θ = c² + x²

⇒(a² + b²)[sin²θ + cos²θ ] = c² + x²

⇒(a² + b²) = c² + x² [∵ sin²x + cos²x = 1 ]

⇒(a² + b² - c²) = x²

Take square root both sides,

Hence, acosθ - bsinθ

$<marquee>$follow me

$<marquee>$pls mark as brainliest