13.0: Prelude to Vector-Valued Functions

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Page ID: 9125

Gilbert Strang & Edwin “Jed” Herman
OpenStax

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In 1705, using Sir Isaac Newton’s new laws of motion, the astronomer Edmond Halley made a prediction. He stated that comets that had appeared in 1531, 1607, and 1682 were actually the same comet and that it would reappear in 1758. Halley was proved to be correct, although he did not live to see it. However, the comet was later named in his honor. Halley’s Comet follows an elliptical path through the solar system, with the Sun appearing at one focus of the ellipse. This motion is predicted by Johannes Kepler’s first law of planetary motion, which we mentioned briefly previously. Kepler’s third law of planetary motion can be used with the calculus of vector-valued functions to find the average distance of Halley’s Comet from the Sun.

This is a picture of Halley’s Comet. It is a bright ball of light towards the right of the picture with a tail of trailing light. There are also stars throughout the picture. — Figure \(\PageIndex{1}\): Halley’s Comet appeared in view of Earth in 1986 and will appear again in 2061.

Vector-valued functions provide a useful method for studying various curves both in the plane and in three-dimensional space. We can apply this concept to calculate the velocity, acceleration, arc length, and curvature of an object’s trajectory. In this chapter, we examine these methods and show how they are used.

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