8: Vectors

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8.1: Angles in Standard Position
This page provides a definition of an angle as the rotation of a ray around a vertex, distinguishing between positive and negative angles based on direction. It notes that a full rotation equals \(360^\circ\), and that angles in standard position start along the positive \(x\)-axis. Additionally, it mentions the division of the coordinate plane into four quadrants, related to the signs of the \(x\) and \(y\) coordinates.
8.2: Trigonometric Functions of Any Angle
This page provides an in-depth explanation of trigonometric functions, focusing on sine, cosine, and tangent in relation to angles in standard position. It covers definitions involving terminal sides, coterminal angles, and reference angles, highlighting the repetitive nature of trigonometric function values.
8.3: Introduction to Vectors
This page explains that a vector is a quantity with both magnitude and direction, visually shown as a directed line segment. Magnitudes are calculated using the Pythagorean theorem, and directions are represented by angles. Position vectors originate from the point (0,0). The document illustrates concepts with examples, including the calculation of magnitudes and directions, where one vector's magnitude is √61 and its direction is adjusted to 140.
8.4: Vector Operations
This page provides comprehensive coverage of vector operations, including vector addition, scalar multiplication, and representation in component form. It discusses finding magnitudes, direction, and components in rectangular coordinates using unit vectors. The text explains vector equality, operations, and the significance of the dot product for calculating angles and applications in physics.
8.5: Vector Addition in the Real World - Electrical Application
This page explores vector notations in electrical contexts, focusing on AC values and vector addition. It outlines methods for summing vectors oriented in various directions and emphasizes the decomposition of vectors into X and Y coordinates to facilitate addition. Additionally, a step-by-step guide for calculating resultant vectors and converting them to polar form is provided.

Thumbnail: Vector in a Cartesian coordinate system. (CC BY-SA 4.0 unported; Acdx).

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