Prove that (cos α + cos β)² + (sin α + sin β)² = 4cos²((α − β)/2)

Prove that \[ (\cos\alpha+\cos\beta)^2+(\sin\alpha+\sin\beta)^2 =4\cos^2\left(\frac{\alpha-\beta}{2}\right) \]

Proof: \[ LHS=(\cos\alpha+\cos\beta)^2+(\sin\alpha+\sin\beta)^2 \] Expanding both squares: \[ =\cos^2\alpha+\cos^2\beta+2\cos\alpha\cos\beta \] \[ +\sin^2\alpha+\sin^2\beta+2\sin\alpha\sin\beta \] Grouping terms: \[ =(\cos^2\alpha+\sin^2\alpha) +(\cos^2\beta+\sin^2\beta) \] \[ +2(\cos\alpha\cos\beta+\sin\alpha\sin\beta) \] Using \[ \cos^2\theta+\sin^2\theta=1 \] and \[ \cos(\alpha-\beta) =\cos\alpha\cos\beta+\sin\alpha\sin\beta \] we get \[ LHS=1+1+2\cos(\alpha-\beta) \] \[ =2+2\cos(\alpha-\beta) \] Using the identity \[ 1+\cos\theta=2\cos^2\frac{\theta}{2} \] therefore, \[ 2+2\cos(\alpha-\beta) =2\left(1+\cos(\alpha-\beta)\right) \] \[ =2\left(2\cos^2\frac{\alpha-\beta}{2}\right) \] \[ =4\cos^2\left(\frac{\alpha-\beta}{2}\right) \] Hence proved, \[ \boxed{ (\cos\alpha+\cos\beta)^2+(\sin\alpha+\sin\beta)^2 =4\cos^2\left(\frac{\alpha-\beta}{2}\right) } \]

Next Question / Full Exercise

Spread the love

Prove that \[ (\cos\alpha+\cos\beta)^2+(\sin\alpha+\sin\beta)^2 =4\cos^2\left(\frac{\alpha-\beta}{2}\right) \]

Leave a Comment Cancel Reply

Join Our Institution for Best Education

Prove that \[ (\cos\alpha+\cos\beta)^2+(\sin\alpha+\sin\beta)^2 =4\cos^2\left(\frac{\alpha-\beta}{2}\right) \]

Related Posts

Leave a Comment Cancel Reply

Join Our Institution for Best Education