7: Trigonometry

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7.1: Angles
This page offers a detailed explanation of angles, covering their definitions and types, such as acute, right, and obtuse angles. It discusses complementary and supplementary angles, triangle angle measurement, and the relevance of angles in different fields. Additionally, the page describes the DMS method for angle representation and includes conversion techniques between decimal degrees and DMS. Practice exercises are also provided for reinforcement.
7.2: Triangles
This page explains the characteristics of triangles, which have three sides and angles summing to 180 degrees. They can be classified by side lengths into isosceles, equilateral, and scalene, and by angles into right, obtuse, and acute. Triangles can be described using combinations of these classifications, like "right isosceles" or "acute equilateral."
7.3: Pythagoras
This page discusses Pythagoras, a Greek philosopher known for the Pythagorean theorem, which states that in a right triangle, the square of the hypotenuse equals the sum of the squares of the other two sides. Although credited to him, the theorem predates his time. It enables calculations of triangle sides and confirms the nature of right triangles, also serving as a foundation for exploring square roots.
7.4: Introduction to Right Triangle Trigonometry
This page covers trigonometry, focusing on the relationships between the sides and angles of right triangles. It introduces the Pythagorean theorem for determining side lengths and emphasizes that the sum of a triangle's angles is 180 degrees. Angles are labeled with Greek letters and the sides are categorized as adjacent, opposite, or hypotenuse. Key trigonometric functions—sine, cosine, and tangent—link angle measures to side length ratios, summarized by the mnemonics SOH, CAH, TOA.
7.5: Right Triangle Trigonometry in the Real World
This page covers how to solve right triangles using trigonometric functions and the Pythagorean Theorem, focusing on finding missing lengths and angles with practical examples. It illustrates methods like sine, cosine, and tangent, as well as inverse functions. Real-world applications include wheelchair ramp construction and measuring heights for guy wires on telephone poles.
7.6: Power and Impedance Triangles - An Elelctrical Example
This page explains impedance and power triangles, which illustrate the relationships between resistance, reactance, and power in AC circuits. Impedance triangles show resistance and reactance with impedance as the hypotenuse, while power triangles differentiate true power from reactive power, summing to apparent power. Both use the Pythagorean theorem, highlighting that resistive and reactive powers cannot be directly added.

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