Sum and Difference Identitiessin(a+b) =
The sum and difference identities in trigonometry relate the sine and cosine functions of the sum or difference of two angles
The sum and difference identities in trigonometry relate the sine and cosine functions of the sum or difference of two angles. The sum identity states that:
sin(a + b) = sin(a)cos(b) + cos(a)sin(b)
In simple terms, the sine of the sum of two angles (a + b) can be expressed as the product of the sine of the first angle (a) and the cosine of the second angle (b), added to the product of the cosine of the first angle (a) and the sine of the second angle (b).
Similarly, the difference identity states that:
sin(a – b) = sin(a)cos(b) – cos(a)sin(b)
In this case, the sine of the difference of two angles (a – b) can be expressed as the product of the sine of the first angle (a) and the cosine of the second angle (b), minus the product of the cosine of the first angle (a) and the sine of the second angle (b).
These identities are useful in various trigonometric calculations, especially when dealing with the addition or subtraction of angles. They allow us to express the sine of a sum or difference in terms of sines and cosines of the individual angles, which facilitates solving trigonometric equations or simplifying trigonometric expressions.
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