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11.6 Surfaces in Space.

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Presentation on theme: "11.6 Surfaces in Space."— Presentation transcript:

1 11.6 Surfaces in Space

2 Definition of a Cylinder
Let C be a curve in a plane and let L be a line not in a parallel plane. The set of all lines parallel to L and intersecting C is called a cylinder. C is called the generating curve (or directrix), and the parallel lines are called rulings. Note: If one of the variables is missing from the equation of a cylinder, its rulings are parallel to the coordinate axis of the missing variable.

3 Examples:

4 Quadric Surfaces The equation of a quadric surface in space is a second-degree equation of the form There are six basic types of quadric surfaces:

5 1) Ellipsoid Standard Form

6 2) Hyperboloids of One Sheet
Standard Equation:

7 3) Hyperboloid of Two Sheets
Standard equation

8 4) Elliptic Cone Standard Equation:
The axis of the cone corresponds to the variable whose coefficient is negative. The traces in the coordinate planes parallel to this axis are intersecting lines.

9 5) Elliptic Paraboloid Standard Equation:
Two traces are parabolas and one is an ellipse. The axis of the paraboloid corresponds to the variable raised to the first power.

10 6) Hyperbolic Paraboloid
Standard Equation: The axis of the paraboloid corresponds to the variable rasied to the first power.

11 To Sketch a Quadric Surface
Write the surface in standard form. Determine the traces in the coordinate planes by setting each variable =0 For example: To get the trace in the xy-plane, set z=0. To get the trace in the xz-plane, set y=0, etc. If needed, find the traces in planes that are parallel to coordinate planes by holding a variable constant.

12 Examples: Identify and Sketch: 1) 2) #6, 19, 30

13 #42 Sketch the region bounded by the graphs of the equations. X=0, y=0, z=0

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