Calculus III H Final Review: Study all old tests and worksheets on my website

 

Section 9.2 Vectors:

·      Given 2 points A and B, find the vector that goes from A to B p. 645

·      Find the magnitude of a vector, find unit vectors

·      Examples p.649: 9, 17, 19, 23, 28,33

 

Section 9.3 The Dot Product:

·      Know both definitions of the dot product (p. 651 & 653)

·      Be able to determine if 2 vectors are perpendicular or parallel

·      Examples p. 656: 15,17, 33

 

Section 9.4 The Cross Product:

·      Know the definition and that axb is orthogonal to both a and b.

·      Be able to determine if 2 vectors are parallel

·      Examples p. 664: 7,9, 17, 21,33

 

Section 9.5 Equations of Lines and Planes

·      Know both vector and parametric equations of lines

·      Know the scalar equation of the plane

·      Examples p. 673: 1,3,7,21,23, 25,27,31,33

  

Section 10.2 Derivatives and Integrals of Vector Functions

·      Be able to take derivatives and be able to integrate vector functions

·      Know what a tangent vector and a unit tangent vector are

·      Examples p. 707: 9,15,19, 27,29

 

Section 10.4 Motion in Space: Velocity and Acceleration

·      Find the velocity, speed, and acceleration given a position vector

·      Find position, velocity, and speed given acceleration

·      Examples p. 725: 5,9,13,15,21,23

 

Section 11.2 Limits and Continuity:

·   Be able to show a limit does not exist (p.755: 9,13,17)

·   Know the definition of continuity (p.753)

·   Given a function is continuous at (a,b), find its limit there (p.755: 5 & 6)

 

Section 11.3 Partial Derivatives:

·   Know Clairaut’s Theorem (p.763)

·   Be able to take partial derivatives

·   Examples p. 767: 15, 25,27,35,51, 61, 77

 

Section 11.4 Tangent Planes and Linear Approximations:

·   Know how to find the equation of the tangent plane

·   Examples p. 778: 1,4,9,13

 

Section 11.5 The Chain Rule

·   Understand the different cases of the chain rule (Case 1, Case 2, the General Case)

·   Examples p. 787: 3,5,9,17,29

 

Section 11.6 Directional Derivatives and the Gradient Vector

·   Be able to find the derivative of f in the direction of a vector v

·   Know how to maximize/minimize the directional derivative (p.794 Theorem 15)

·   Examples p. 799: 11,15,17,19, 21,23,29

 

Section 11.7 Maximum and Minimum Values

·   Know the 2^nd Derivative Test (p. 803)

·   Be able to identify local maxs, mins, and saddle points

·   Know how to find absolute maxs and mins on a closed bounded set D (p.808)

·   Examples p. 809: 1,25,30 & p.825: 51,53

   

Section 12.3 Double Integrals over General Regions:

·   Be able to set up & integrate double integrals over a region D

·   Be able to find volumes using double integrals

·   Be able to sketch a region D and change the order of integration (p.850 33,39)

·   Know property 10 on p. 849

·   Examples p. 850: 13,17,23

 

Section 12.4 Double Integrals in Polar Coordinates:

·   Know how to change from rectangular to polar coordinates

·   Examples p. 856: 4,9, 15,20,25

 

Section 12.5 Applications of Double Integrals

·   Given a density function, be able to find the mass and center of mass of a lamina.

·   Examples p. 866: 3,7,11

 

Section 12.7 Triple Integrals:

·   Be able to set up and evaluate triple integrals, find volume using triple integrals, and find mass of a solid E given a density function.

·   Examples p. 879: 11,13,19

 

Section 9.7 Cylindrical and Spherical Coordinates:

·   You need to know how to convert back and forth between rectangular and cylindrical coordinates and rectangular and spherical coordinates

·   Know the red boxes on pages 685 and 687

 

Section 12.8 Triple Integrals in Cylindrical & Spherical Coordinates

·   You will need to be able to set up and evaluate integrals in both cylindrical and spherical coordinates

·   Examples p. 887: 9,11,19,21,23,31,33

 

Section 13.1 Vector Fields:

·   Be able to find the gradient vector field of f

 

 Section 13.2 Line Integrals:

·   Know how to find the line integral of f along a curve C in R² (p.913) or R³(p. 917)

·   Be able to calculate the mass of a wire using line integrals

·   Find the line integral of a vector field F along C/Find the work done by F moving a particle along a curve

·   Examples p.921: 1,11,17,27,35,39

 

Section 13.3 The Fundamental Theorem For Line Integrals:

·   Be able to state the result of the Fundamental Theorem for Line Integrals (p.924)

·   Show F(x,y) is or is not conservative (p.928)

·   Given a conservative function F find its potential function f

·   Examples p. 931: 3,5,15,17

 

Section 13.5 Curl and Divergence:

·   Calculate curl and divergence of F

·   Determine whether F(x,y,z) is conservative or not (p.942)

·   Given a conservative function F find its potential function f

·   Examples p.947: 1,3, 13, 15,36

  

Section 13.6 Surface Integrals

·   Compute the surface integral of a parametric surface)

·   Take the surface integral of a vector field

·   Examples p.958: 9,11,13,19,21

Section 13.7 Stokes’ Theorem

·   Know the result of Stokes’ Theorem (p.959) and be able to use it

          ·   Examples p.964: 7,9,13,17

 

Section 13.8 The Divergence Theorem

          ·   Examples p.971: 3,5,7,11,13,25

 

***NOTE: I will give you Stokes’ Theorem  and the Divergence Theorem but you will need to know how to use them***

 

Other Helpful Information for the Test:

·   Equation and graph of a plane (p.670 box 8)

·   Equation and graph of a paraboloid, cone (p.682)

·   Equation and graph of a sphere (p.640)

·   Equation of a line

·   Equation and graph of a cylinder

·   Sin and Cos at basic angles (See the 2^nd reference page at the very front of your book)

·   U-substitution

·   Integration by Parts