Can \cos(\theta-\lambda) Be Used to Show Sin C in Addition Formula/Sine Rule?

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The discussion revolves around using the cosine of the angle difference to demonstrate the sine addition formula. Angle C is identified as π/2 - θ, leading to a relationship between angles in a triangle, which sum to π radians. Participants explore the sine addition formula, specifically sin(a + b), to derive expressions involving angles B and C. The conclusion suggests that the expression sin(π/2 + (θ - λ)) simplifies to cos(θ - λ). This highlights the interconnectedness of trigonometric identities in solving triangle-related problems.
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http://img117.imageshack.us/img117/1482/graph015tt6.png
I know an alternative way of showing Sin C is cos 'theta'.
Thanks
 
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What is angle C? I can't make it out in the picture... Also could you show your attempt of the problems?
 
Angle C is pi/2 - theta (radians) "pi over two minus theta" ie. 90 deegrees - theta.
I did show my attempt at it, i couldn't get further.
 
Certainly, since the angles in a triangle add to 2\pi radians, B= 2\pi- \lambda- (\pi/2- \theta)= 3\pi/2- (\theta- \lambda).
Okay, using sin(a+ b)= sin(a)cos(b)- cos(a)sin(b)[/itex], what is
sin(3\pi/2+ (-(\theta- \lambda)))?
 
HallsofIvy said:
Certainly, since the angles in a triangle add to 2\pi radians,

The angles of a triangle add upto \pi radians
B= 2\pi- \lambda- (\pi/2- \theta)= 3\pi/2- (\theta- \lambda).
thus B=\pi-\lambda-(\pi/2-\theta)=\pi/2+(\theta-\lambda)
Okay, using sin(a+ b)= sin(a)cos(b)- cos(a)sin(b)[/itex], what is
sin(3\pi/2+ (-(\theta- \lambda)))?

The expression you require is therefore \sin(\pi/2+(\theta-\lambda)) = ?
 
\cos(\theta-\lambda)

Thanks
 

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