Chapter 9: Q. 19 (page 747)
Graph the equation in the θr-plane. Label each arc of your curve with the quadrant in which the corresponding polar graph will occur.
Short Answer
The graph of the equation is:
Chapter 9: Q. 19 (page 747)
Graph the equation in the θr-plane. Label each arc of your curve with the quadrant in which the corresponding polar graph will occur.
The graph of the equation is:
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Get started for freeIn Exercises 32–47 convert the equations given in polar coordinates to rectangular coordinates.
In Exercises 48–55 convert the equations given in rectangular coordinates to equations in polar coordinates.
Use Cartesian coordinates to express the equations for the hyperbolas determined by the conditions specified in Exercises 38–43.
Use polar coordinates to graph the conics in Exercises 44–51.
in exercise 31-36 find a definite integral that represents the length of the specified polar curve, and then use graphing calculator or computer algebra system to approximate the value of integral
The limacon
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