Presentation is loading. Please wait.

Presentation is loading. Please wait.

Parametric Surfaces.

Published byLindsey Holt Modified over 9 years ago

Similar presentations

Presentation on theme: "Parametric Surfaces."— Presentation transcript:

1 Parametric Surfaces

2 1. Graph the vector-valued function (Similar to p.1109 #1-6)

3 Definition of Parametric Surface
Let x, y, and z be functions of u and v that are continuous on a domain D in the uv-plane. The set of points (x, y, z) given by r(u, v) = x(u, v)i + y(u, v)j + z(u, v)k Is called a parametric surface. The equations x = x(u, v), y = y(u, v), and z = z(u, v) Are the parametric equations for the surface

4 2. Find the rectangular equation for the surface by eliminating the parameters from the vector-valued function. Identify the surface and sketch its graph (Similar to p.1109 #7-10)

5 3. Find the rectangular equation for the surface by eliminating the parameters from the vector-valued function. (Similar to p.1109 #7-10)

6 4. Find a vector-valued function whose graph is the indicated surface
4. Find a vector-valued function whose graph is the indicated surface. (Similar to p.1109 #21-30)

7 5. Find a vector-valued function whose graph is the indicated surface
5. Find a vector-valued function whose graph is the indicated surface. (Similar to p.1109 #21-30)

8 6. Find a vector-valued function whose graph is the indicated surface
6. Find a vector-valued function whose graph is the indicated surface. (Similar to p.1109 #21-30)

9 7. Write a set of parametric equations for the surface of revolution obtained by revolving the graph of the function about the given axis. (Similar to p.1110 #31-34)

10 8. Write a set of parametric equations for the surface of revolution obtained by revolving the graph of the function about the given axis. (Similar to p.1110 #31-34)

11 Finding a Tangent Plane to a Parametric Surface
Find what u and v are equal to given the point (xo, yo, zo) Find the partials ru and rv Find the cross product ru x rv Plug in your u and v values into the cross product which gives the normal vector ai + bj + ck Tangent plane is: a(x – xo) + b(y – yo) + c(z – zo) = 0

12 9. Find an equation of the tangent plane to the surface represented by the vector-valued function at the given point. (Similar to p.1110 #35-38)

13 Area of a Parametric Surface
Let S be a smooth parametric surface r(u, v) = x(u, v)i + y(u, v)j + z(u, v)k Defined over an open region D in the uv-plane. If each point on the surface S corresponds to exactly one point in the domain D, then the surface area of S is given by

14 10. Find the area of the surface over the given region. (Similar to p

15 11. Find the area of the surface over the given region. (Similar to p

Download ppt "Parametric Surfaces."

Similar presentations

Vector Functions and Space Curves

Vector Functions and Space Curves
Copyright © Cengage Learning. All rights reserved.

Copyright © Cengage Learning. All rights reserved.
Equations of Tangent Lines

Equations of Tangent Lines
Find the slope of the tangent line to the graph of f at the point ( - 1, 10 ). f ( x ) = 6 - 4x 1234567891011121314151617181920 2122232425262728293031323334353637383940.

Find the slope of the tangent line to the graph of f at the point ( - 1, 10 ). f ( x ) = 6 - 4x
Tangent Vectors and Normal Vectors. Definitions of Unit Tangent Vector.

Tangent Vectors and Normal Vectors. Definitions of Unit Tangent Vector.
6.2 - Volumes. Definition: Right Cylinder Let B 1 and B 2 be two congruent bases. A cylinder is the points on the line segments perpendicular to the bases.

6.2 - Volumes. Definition: Right Cylinder Let B 1 and B 2 be two congruent bases. A cylinder is the points on the line segments perpendicular to the bases.
Chapter 16 – Vector Calculus 16.7 Surface Integrals 1 Objectives:  Understand integration of different types of surfaces Dr. Erickson.

Chapter 16 – Vector Calculus 16.7 Surface Integrals 1 Objectives:  Understand integration of different types of surfaces Dr. Erickson.
Computer Graphics - Class 14

Computer Graphics - Class 14
17 VECTOR CALCULUS.

17 VECTOR CALCULUS.
Chapter 16 – Vector Calculus

Chapter 16 – Vector Calculus
Multiple Integrals 12. Surface Area 12.6 3 Surface Area In this section we apply double integrals to the problem of computing the area of a surface.

Multiple Integrals 12. Surface Area Surface Area In this section we apply double integrals to the problem of computing the area of a surface.
Public – 2007 One Mark Questions One Mark Questions PREPARED BY:

Public – 2007 One Mark Questions One Mark Questions PREPARED BY:
Lines and Planes in Space

Lines and Planes in Space
11 Analytic Geometry in Three Dimensions

11 Analytic Geometry in Three Dimensions
Copyright © Cengage Learning. All rights reserved. 10 Analytic Geometry in Three Dimensions.

Copyright © Cengage Learning. All rights reserved. 10 Analytic Geometry in Three Dimensions.
Vectors and the Geometry of Space

Vectors and the Geometry of Space
Surface Integral.

Surface Integral.
Chapter 8 Plane Curves and Parametric Equations. Copyright © Houghton Mifflin Company. All rights reserved.8 | 2 Definition of a Plane Curve.

Chapter 8 Plane Curves and Parametric Equations. Copyright © Houghton Mifflin Company. All rights reserved.8 | 2 Definition of a Plane Curve.
Vector Analysis Copyright © Cengage Learning. All rights reserved.

Vector Analysis Copyright © Cengage Learning. All rights reserved.
Vector Analysis 15 Copyright © Cengage Learning. All rights reserved.

Vector Analysis 15 Copyright © Cengage Learning. All rights reserved.

Similar presentations

Ads by Google