Textbook Question
Use point plotting to graph the plane curve described by the given parametric equations. Use arrows to show the orientation of the curve corresponding to increasing values of t. x = t − 2, y = 2t + 1; −2 ≤ t ≤ 3
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9. Polar Equations
Polar Coordinate System
4:19 minutesProblem 75
Textbook Question
In Exercises 71–76, eliminate the parameter and graph the plane curve represented by the parametric equations. Use arrows to show the orientation of each plane curve. x = 3 + 2 cos t, y = 1+2 sin t; 0 ≤ t < 2π
Verified step by step guidance1
Identify the parametric equations given: \(x = 3 + 2 \cos t\) and \(y = 1 + 2 \sin t\), where \(0 \leq t < 2\pi\).
Recall the Pythagorean identity \(\sin^2 t + \cos^2 t = 1\). Our goal is to eliminate the parameter \(t\) by expressing \(\cos t\) and \(\sin t\) in terms of \(x\) and \(y\).
From the equations, isolate \(\cos t\) and \(\sin t\): \(\cos t = \frac{x - 3}{2}\) and \(\sin t = \frac{y - 1}{2}\).
Substitute these expressions into the Pythagorean identity: \(\left(\frac{x - 3}{2}\right)^2 + \left(\frac{y - 1}{2}\right)^2 = 1\).
Simplify the equation to get the Cartesian form of the curve: \(\frac{(x - 3)^2}{4} + \frac{(y - 1)^2}{4} = 1\). This represents a circle centered at \((3,1)\) with radius 2. To graph, plot this circle and use the parameter range to indicate orientation (counterclockwise as \(t\) increases from \$0$ to \(2\pi\)).
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Video duration:
4mKey Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Parametric Equations
Parametric equations express the coordinates of points on a curve as functions of a parameter, often denoted as t. Instead of y as a function of x, both x and y depend on t, allowing the representation of more complex curves like circles and ellipses.
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Parameterizing Equations
Eliminating the Parameter
Eliminating the parameter involves rewriting the parametric equations to form a single equation in x and y. This is done by solving one equation for the parameter and substituting into the other, or by using trigonometric identities to relate x and y directly.
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Graphing and Orientation of Plane Curves
Graphing parametric curves requires plotting points for various parameter values and showing the direction of increasing parameter with arrows. Orientation indicates the path traced by the curve as the parameter increases, which is important for understanding motion or directionality.
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