Pythagorean Trig Identities
The Pythagorean trigonometric identities are a set of three fundamental equations that relate the trigonometric functions of a right triangle
The Pythagorean trigonometric identities are a set of three fundamental equations that relate the trigonometric functions of a right triangle. These identities are derived from the Pythagorean theorem and are as follows:
1. Pythagorean identity:
sin^2(theta) + cos^2(theta) = 1
This identity states that the square of the sine of an angle plus the square of the cosine of the same angle is always equal to 1. This holds true for any angle theta.
2. Reciprocal identity:
csc(theta) = 1/sin(theta)
sec(theta) = 1/cos(theta)
cot(theta) = 1/tan(theta)
These identities show the reciprocal relationships between the trigonometric functions and their cofunctions. For example, the cosecant of an angle is equal to the reciprocal of the sine of the same angle, and so on.
3. Quotient identity:
tan(theta) = sin(theta)/cos(theta)
cot(theta) = cos(theta)/sin(theta)
The quotient identity expresses the relationship between the tangent and cotangent functions with the sine and cosine functions. For instance, the tangent of an angle is equal to the sine of the angle divided by the cosine of the same angle.
These trigonometric identities are of great importance in solving trigonometric equations, simplifying expressions, and proving other mathematical theorems. They can be used to convert one trigonometric function into another or simplify complex expressions involving trigonometric functions.
It is worth noting that these identities hold true for any angle theta, not just for right triangles. However, they were initially derived and are most commonly used in right triangle trigonometry.
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