sin (A+B) = sin A * cos B + cos A * sin B
Answers
Answer:
We can use the Angle Sum and Difference Formulas to help solve this problem. The key Angle Sum and Difference Formulas are:
cos(a + b) = cos(a)*cos(b) - sin(a)*sin(b)
cos(a - b) = cos(a)*cos(b) + sin(a)*sin(b)
sin(a + b) = sin(a)*cos(b) + cos(a)*sin(b)
sin(a - b) = sin(a)*cos(b) - cos(a)*sin(b)
We can replace cos(a-b) and sin(a - b) in your given problem such that
cos(a - b)*cos(b) - sin(a - b)*sin(b)
= [cos(a)*cos(b) + sin(a)*cos(b)] * cos(b) - [sin(a)*cos(b) - cos(a)*sin(b)] * sin(b)
Distributing the cos(b) to the first set of parenthesis and the sin(b) to the second set of parenthesis, we have:
cos(a)*cos2(b) + sin(a)*sin(b)*cos(b) - [sin(a)*sin(b)*cos(b) - cos(a)*sin2(b)]
We still need to distribute the negative, doing so gives us:
cos(a)*cos2(b) + sin(a)*sin(b)*cos(b) - sin(a)*sin(b)*cos(b) + cos(a)*sin2(b)
The sin(a)*sin(b)*cos(b) - sin(a)*sin(b)*cos(b) cancels out to 0. This leaves us with:
cos(a)*cos2(b) + cos(a)*sin2(b)
Both terms have cos(a) in common, so we can factor the cos(a) to the outside:
cos(a)*[cos2(b) + sin2(b)]
The Pythagorean Identity tells us that cos2(b) + sin2(b) = 1, by substituting 1 in for cos2(b) + sin2(b), we have:
cos(a) * 1
Which we can write as cos(a).
Therefore,
cos(a - b)*cos(b) - sin(a - b)*sin(b) = cos(a)
Step-by-step explanation:
hope ur help this answer ☺️