Name: Final Exam Review. (b) Reparameterize r(t) with respect to arc length measured for the point (1, 0, 1) in the direction of increasing t.

Similar documents
MATH 234. Excercises on Integration in Several Variables. I. Double Integrals

1 Vector Functions and Space Curves

Name: Class: Date: 1. Use Lagrange multipliers to find the maximum and minimum values of the function subject to the given constraint.

MATH 230 FALL 2004 FINAL EXAM DECEMBER 13, :20-2:10 PM

MATH 116 REVIEW PROBLEMS for the FINAL EXAM

MA 174: Multivariable Calculus Final EXAM (practice) NO CALCULATORS, BOOKS, OR PAPERS ARE ALLOWED. Use the back of the test pages for scrap paper.

MAC2313 Final A. a. The vector r u r v lies in the tangent plane of S at a given point. b. S f(x, y, z) ds = R f(r(u, v)) r u r v du dv.

Determine whether or not F is a conservative vector field. If it is, find a function f such that F = enter NONE.

6. Find the equation of the plane that passes through the point (-1,2,1) and contains the line x = y = z.

MATH 2023 Multivariable Calculus

Multivariate Calculus: Review Problems for Examination Two

18.02 Final Exam. y = 0

MA FINAL EXAM Green April 30, 2018 EXAM POLICIES

MATH 2400: CALCULUS 3 MAY 9, 2007 FINAL EXAM

Practice problems from old exams for math 233 William H. Meeks III December 21, 2009

Multivariate Calculus Review Problems for Examination Two

Solution of final examination

Chapter 15 Vector Calculus

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

Calculus III. Math 233 Spring In-term exam April 11th. Suggested solutions

MATH 261 FALL 2000 FINAL EXAM INSTRUCTIONS. 1. This test booklet has 14 pages including this one. There are 25 questions, each worth 8 points.

Parametric Surfaces. Substitution

f xx (x, y) = 6 + 6x f xy (x, y) = 0 f yy (x, y) = y In general, the quantity that we re interested in is

University of California, Berkeley

MA 243 Calculus III Fall Assignment 1. Reading assignments are found in James Stewart s Calculus (Early Transcendentals)

Math 2130 Practice Problems Sec Name. Change the Cartesian integral to an equivalent polar integral, and then evaluate.

PURE MATHEMATICS 212 Multivariable Calculus CONTENTS. Page. 1. Assignment Summary... i 2. Summary Assignments...2

f (Pijk ) V. may form the Riemann sum: . Definition. The triple integral of f over the rectangular box B is defined to f (x, y, z) dv = lim

MAC2313 Test 3 A E g(x, y, z) dy dx dz

8(x 2) + 21(y 1) + 6(z 3) = 0 8x + 21y + 6z = 55.

2. Give an example of a non-constant function f(x, y) such that the average value of f over is 0.

UNIVERSITI TEKNOLOGI MALAYSIA SSE 1893 ENGINEERING MATHEMATICS TUTORIAL 5

Math 265 Exam 3 Solutions

University of Saskatchewan Department of Mathematics & Statistics MATH Final Instructors: (01) P. J. Browne (03) B. Friberg (05) H.

Math 6A Practice Problems III

Topic 5-6: Parameterizing Surfaces and the Surface Elements ds and ds. Big Ideas. What We Are Doing Today... Notes. Notes. Notes

Chapter 15 Notes, Stewart 7e

MAT203 OVERVIEW OF CONTENTS AND SAMPLE PROBLEMS

PURE MATHEMATICS 212 Multivariable Calculus CONTENTS. Page. 1. Assignment Summary... i 2. Introduction Timetable Assignments...

F dr = f dx + g dy + h dz. Using that dz = q x dx + q y dy we get. (g + hq y ) x (f + hq x ) y da.

Math Exam III Review

The Divergence Theorem

First we consider how to parameterize a surface (similar to a parameterized curve for line integrals). Surfaces will need two parameters.

Curves: We always parameterize a curve with a single variable, for example r(t) =

Math 241, Final Exam. 12/11/12.

Math 253, Section 102, Fall 2006 Practice Final Solutions

Math 21a Tangent Lines and Planes Fall, What do we know about the gradient f? Tangent Lines to Curves in the Plane.

Quiz problem bank. Quiz 1 problems. 1. Find all solutions (x, y) to the following:

Math 397: Exam 3 08/10/2017 Summer Session II 2017 Time Limit: 145 Minutes

Contents. MATH 32B-2 (18W) (L) G. Liu / (TA) A. Zhou Calculus of Several Variables. 1 Homework 1 - Solutions 3. 2 Homework 2 - Solutions 13

3. The three points (2, 4, 1), (1, 2, 2) and (5, 2, 2) determine a plane. Which of the following points is in that plane?

Math 11 Fall Multivariable Calculus. Final Exam

Chapter 5 Partial Differentiation

MATH 261 EXAM III PRACTICE PROBLEMS

1. Suppose that the equation F (x, y, z) = 0 implicitly defines each of the three variables x, y, and z as functions of the other two:

Lecture 23. Surface integrals, Stokes theorem, and the divergence theorem. Dan Nichols

13.1. Functions of Several Variables. Introduction to Functions of Several Variables. Functions of Several Variables. Objectives. Example 1 Solution

Math 11 Fall 2016 Section 1 Monday, October 17, 2016

MAT175 Overview and Sample Problems

Dr. Allen Back. Nov. 21, 2014

UNIVERSITI TEKNOLOGI MALAYSIA SSCE 1993 ENGINEERING MATHEMATICS II TUTORIAL 2. 1 x cos dy dx x y dy dx. y cosxdy dx

Practice problems from old exams for math 233

MIDTERM. Section: Signature:

Grad operator, triple and line integrals. Notice: this material must not be used as a substitute for attending the lectures

Math 52 Final Exam March 16, 2009

(c) 0 (d) (a) 27 (b) (e) x 2 3x2

Calculators ARE NOT Permitted On This Portion Of The Exam 28 Questions - 55 Minutes

Background for Surface Integration

14.1 Vector Fields. Gradient of 3d surface: Divergence of a vector field:

NATIONAL UNIVERSITY OF SINGAPORE MA MATHEMATICS 1. AY2013/2014 : Semester 2. Time allowed : 2 hours

Math 251 Quiz 5 Fall b. Calculate. 2. Sketch the region. Write as one double integral by interchanging the order of integration: 2

Quadric Surfaces. Philippe B. Laval. Today KSU. Philippe B. Laval (KSU) Quadric Surfaces Today 1 / 24

Multiple Integrals. max x i 0

MATH. 2153, Spring 16, MWF 12:40 p.m. QUIZ 1 January 25, 2016 PRINT NAME A. Derdzinski Show all work. No calculators. The problem is worth 10 points.

Quadric Surfaces. Philippe B. Laval. Spring 2012 KSU. Philippe B. Laval (KSU) Quadric Surfaces Spring /

the straight line in the xy plane from the point (0, 4) to the point (2,0)

Math 241 Spring 2015 Final Exam Solutions

QUIZ 4 (CHAPTER 17) SOLUTIONS MATH 252 FALL 2008 KUNIYUKI SCORED OUT OF 125 POINTS MULTIPLIED BY % POSSIBLE

WW Prob Lib1 Math course-section, semester year

Math Triple Integrals in Cylindrical Coordinates

Dr. Allen Back. Nov. 19, 2014

Math 113 Calculus III Final Exam Practice Problems Spring 2003

Outcomes List for Math Multivariable Calculus (9 th edition of text) Spring

Final Exam Review. Name: Class: Date: Short Answer

4 = 1 which is an ellipse of major axis 2 and minor axis 2. Try the plane z = y2

MA EXAM 2 Form 01 April 4, You must use a #2 pencil on the mark sense sheet (answer sheet).

Calculus IV. Exam 2 November 13, 2003

= x i + y j + z k. div F = F = P x + Q. y + R

Math 126 Final Examination SPR CHECK that your exam contains 8 problems on 8 pages.

MATH SPRING 2000 (Test 01) FINAL EXAM INSTRUCTIONS

MATH 251 Fall 2016 EXAM III - VERSION A

Math 126 Winter CHECK that your exam contains 8 problems.

Math 2374 Spring 2007 Midterm 3 Solutions - Page 1 of 6 April 25, 2007

Applications of Triple Integrals

Total. Math 2130 Practice Final (Spring 2017) (1) (2) (3) (4) (5) (6) (7) (8)

Math 209 (Fall 2007) Calculus III. Solution #5. 1. Find the minimum and maximum values of the following functions f under the given constraints:

8/5/2010 FINAL EXAM PRACTICE IV Maths 21a, O. Knill, Summer 2010

There are 10 problems, with a total of 150 points possible. (a) Find the tangent plane to the surface S at the point ( 2, 1, 2).

[Anton, pp , pp ] & [Bourne, pp ]

Coordinate Transformations in Advanced Calculus

Transcription:

MATH 127 ALULU III Name: 1. Let r(t) = e t i + e t sin t j + e t cos t k (a) Find r (t) Final Exam Review (b) Reparameterize r(t) with respect to arc length measured for the point (1,, 1) in the direction of increasing t. 2. Find a parametric representation of the conical surface x 2 + y 2 = z 2, 1 z 1 3. Let f(x, y) be a function with values and derivatives in the table. Use linear approximation to estimate f(2.1,.9). 4. Find an equation of the tangent plane to the parametric surface x = u + v, y = 3u 2, v = u v at (2, 3, ). 5. Find a vector normal to the tangents of both the curves v(t) =< te t, t 1, t 2 > and v(s) =< s 2, s 2 5, ln(s 1) > at the point (,-1,). 6. onsider the curve which is the intersection of the surfaces x 2 +y 2 = 9 and z = 1 y 2. (a) Find the parametric equations that represent the curve. (b) Find the equation of the tangent line to the curve at point (, 3, 8). 7. For r(t) = 2 sin t, 5t, 2 cos t (a) Find the unit tangent vector. (b) Find the unit normal vector. (c) Find the curvature. 8. The helix R(t) =< cos t, sin t, 2t > has constant curvature. Find this constant. 9. Find the it if it exists. 1

(a) (b) (c) 2x 2 + 3xy + 4y 2 (x,y) (,) 3x 2 + 5y 2 (x,y) (,) 4x 2 y x 2 + y 2 2x 2 + y 2 (x,y) (,) x 2 + 2y 2 1. Find the equation of the plane tangent to the surface f(x, y) = x x+y at (2,7). 11. Find the equation of the the plane tangent to x 2 +y 2 +z 2 = 169 at the point (-3,12,-4). 12. uppose a particle has acceleration vector a(t) = tî 9.8ˆk with initial velocity 5ĵ +1ˆk and position at t =. What is the position of the particle at t = 2? 13. Find the velocity and position of an object at any time t, given that its acceleration is a(t) = 6t, 12t, e t and its initial velocity is v() =< 2,, 1 > and initial position s() =<, 3, 5 > 14. Find the maximum and minimum values of f(x, y) = 6x + 8y subject to the constraint x 2 + y 2 = 25. 15. For f(x, y) = x 2 + y 2 and A =< 4, 3 >: (a) Find f(x, y) (b) Find f(a) (c) In what direction û is Dûf(A) most negative. 16. Find the directional derivative of the function g(x, y, z) = xyz at the point (3, 2, 6) in the direction f the vector v = i 2 j 2 k 17. Identify the critical points of f(x, y) = 5x 2 + 3y 2 + 6y + 1. Find the absolute maximum and minimum values of f on D = {(x, y) x 2 + y 2 4} 18. Find the local maximum, local minimum and saddle point(s) for the function. f(x, y) = x 3 + 6xy 3y 2 + 4x 9x 19. Isaac Newton is cbing a hill whose crest is 5m high. With the top of the hill at the origin, a function giving altitude around the hill is f(x, y) = 5.1x 4.1y 2 where x, y and f(x, y) are given in meters. At what rate is Newton cbing if he is standing at (2, 1) and moving towards (14, 18)? 2. Find positive x and y such that g(x, y) = 2x + y = 4 [constraint equation] which maximizes f(x, y) = xy [objective function]. 21. Use a double integral to find the volume of the given solid. (et up but do not evaluate) 2

(a) The solid enclosed by the paraboloid z = 3 + x 2 + (y 2) 2 and the planes z = 1, x = 1, x = 1, y =, and y = 3 (b) The solid that lies above the cone z = x 2 + y 2 and below the sphere x 2 + y 2 + z 2 = 3 22. Evaluate the following double integrals. (a) (b) R xy x 2 + 1 dv ; R = {(x, y) : x 1, 3 y 3} 2 2x x 2 x2 + y 2 dydx (c) 9 3 x 6 y 3 + 1 dydx 23. For I = 1 1 x ey2 dydx: (a) ketch the region; (b) Rewrite as...dxdy. Answer: 1 y ey2 dxdy (c) Evaluate the the iterated integral from (b). = 1 yey2 dy = 1 2 1 eu du = e 1 2 24. Find the volume of the region over the triangle (, ),(2, ),(, 3) in the xy-plane and under the surface z = x 2 y + 3. 25. Find the surface area of the part of the hyperbolic paraboloid z = y 2 x 2 that lies between the cylinders x 2 + y 2 = 1 and x 2 + y 2 = 4. 26. For : x 2 + y 2 + z 2 9 and x and y and z : Express I = f(z) dv as spherical coordinates integral. 27. Evaluate D x2 + 9y2 4 da for D = {(x, y) 4x 2 + 9y 2 36}. 28. Use the transformation u = x y, v = x + y to evaluate x y da R where R is the square with vertices (,2), (1,1), (2,2), and (1,3). (The graph of R and the equations of the four edges are given below) 3

29. F (x, y) =< 4x + 5y, x 2y >, and path starts at (2,2) and ended at (3,-2). Evaluate I = F d r. 3. For F (x, y) =< 2y, 5x >, and is the path from A =< 1, > to B =< 5, 5 > to < 3, > then back to A enclosing the triangular region R: (a) ketch (with directional arrows) and R (b) Express I = F dr with a double integral (using Green's Theorem). (c) Evaluate the integral from (b).2qbv 16Th 31. Evaluate the integral 3xy dx + (x yz) dy + (y 2z) dz where is the line segment from (1,-1,1) to (2,3,). 32. Find the surface area of the section of the hemisphere z = 4 x 2 y 2 which lies over the cone z = x 2 + y 2 33. Use Green's Theorem to evaluate the line integral sin y dx + x cos y dy where is the ellipse x 2 + xy + y 2 = 1 34. Use Green's Theorem to evaluate F r where F (x, y) =< y 2 cos x, x 2 + 2y sin x > where is the triangle from (,) to (2,6) to (2,) to (,). 35. Evaluate the following surface integrals. (a) y d, is the helicon with vector equation r(u, v) =< u cos v, u sin v, v >, u 1, v π (b) y2 d, is the part of the sphere x 2 + y 2 + z 2 = 4 that lies inside the cylinder x 2 + y 2 = 1 and above the xy-plane. 36. Use Green's Theorem to evaluate the line integral sin y dx + x cos y dy where is the ellipse x 2 + xy + y 2 = 1 37. Use Green's Theorem to evaluate F r where F (x, y) =< y 2 cos x, x 2 + 2y sin x > where is the triangle from (,) to (2,6) to (2,) to (,). 38. Evaluate the following surface integrals. (a) y d, is the helicon with vector equation r(u, v) =< u cos v, u sin v, v >, u 1, v π 4

(b) y2 d, is the part of the sphere x 2 + y 2 + z 2 = 4 that lies inside the cylinder x 2 + y 2 = 1 and above the xy-plane. 39. Use toke's Theorem to evaluate F d r (a) F (x, y, z) = (x+y 2 )î+(y +z 2 )ĵ +(z +x 2 )ˆk; is the triangle with vertices (1,,), (,1,) and (,,1). (b) F (x, y, z) = xyî + 2zĵ + 3yˆk; is the curve of intersection of the plane x + z = 5 and the cylinder x 2 + y 2 = 9. 4. Use the Divergence Theorem to calculate the surface integral F d, that is the flux of F across. (a) F (x, y, z) = (x 3 + y 3 )î + (y 3 + z 3 )ĵ + (z 3 + x 3 )ˆk; where is the sphere with center the origin and radius 2 (b) F (x, y, z) = x 4 î x 3 z 2 ĵ + 4xy 2 zˆk; where is the surface of the solid bounded by the paraboloid z = x 2 + y 2 and the plane z = 4 5

2024 © technodocbox.com Privacy Policy | Terms of Service | Feedback