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se \( \cos (\alpha-\beta) \) to derive a formula for \( \sin (\alpha-\beta) \) (Hint: use co-function

Ask by Wheeler Long. in South Africa
Mar 09,2025

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The formula for \( \sin(\alpha - \beta) \) is: \[ \sin(\alpha - \beta) = \sin(\alpha) \cos(\beta) - \cos(\alpha) \sin(\beta) \]

Solución

To derive a formula for \( \sin(\alpha - \beta) \) using the co-function identity, we can start with the cosine difference identity: \[ \cos(\alpha - \beta) = \cos \alpha \cos \beta + \sin \alpha \sin \beta \] Using the co-function identity, we know that: \[ \sin(\theta) = \cos\left(\frac{\pi}{2} - \theta\right) \] Thus, we can express \( \sin(\alpha - \beta) \) in terms of cosine: \[ \sin(\alpha - \beta) = \cos\left(\frac{\pi}{2} - (\alpha - \beta)\right) \] This simplifies to: \[ \sin(\alpha - \beta) = \cos\left(\frac{\pi}{2} - \alpha + \beta\right) \] Now, we can use the cosine of a sum identity: \[ \cos(x + y) = \cos x \cos y - \sin x \sin y \] Applying this to our expression: \[ \sin(\alpha - \beta) = \cos\left(\frac{\pi}{2} - \alpha\right) \cos(\beta) - \sin\left(\frac{\pi}{2} - \alpha\right) \sin(\beta) \] Using the co-function identities again: \[ \cos\left(\frac{\pi}{2} - \alpha\right) = \sin(\alpha) \] \[ \sin\left(\frac{\pi}{2} - \alpha\right) = \cos(\alpha) \] Substituting these into our equation gives: \[ \sin(\alpha - \beta) = \sin(\alpha) \cos(\beta) - \cos(\alpha) \sin(\beta) \] Thus, the derived formula for \( \sin(\alpha - \beta) \) is: \[ \sin(\alpha - \beta) = \sin(\alpha) \cos(\beta) - \cos(\alpha) \sin(\beta) \]

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To derive the formula for \( \sin(\alpha - \beta) \) using the identity for \( \cos(\alpha - \beta) \), we can start by recalling the co-function identity: \( \sin(\theta) = \cos\left(\frac{\pi}{2} - \theta\right) \). Using the cosine subtraction formula, we have: \[ \cos(\alpha - \beta) = \cos\alpha \cos\beta + \sin\alpha \sin\beta \] Next, using the co-function identity, we can express \( \sin(\alpha - \beta) = \cos\left(\frac{\pi}{2} - (\alpha - \beta)\right) \). Simplifying the argument gives us: \[ \sin(\alpha - \beta) = \cos\left(\frac{\pi}{2} - \alpha + \beta\right) \] Now, applying the cosine addition formula, we get: \[ \sin(\alpha - \beta) = \sin\alpha \cos\beta - \cos\alpha \sin\beta \] Thus, the derived formula for \( \sin(\alpha - \beta) \) is: \[ \sin(\alpha - \beta) = \sin\alpha \cos\beta - \cos\alpha \sin\beta \]

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