Difference between revisions of "MAT2214"

Polar Coordinates

• Trigonometric Functions: Unit Circle Approach
• The inverse Sine, Cosine and Tangent functions

• Plot points using polar coordinates and find several polar coordinates of a single point
• Convert polar coordinates to rectangular coordinates and vice versa
• Transform equations from polar form to rectangular form and vice versa

Three-Dimensional Coordinate Systems

• Two-dimensional coordinate systems
• Algebraic Expressions

• Three-dimensional coordinate systems
• Distance Formula in R³
• Standard Equation for a Sphere

Vectors in The Plane, Space

• Line Segments
• Distance Formula

• Vector Algebra Operations
• The Magnitude of a vector
• Unit Vectors
• The Midpoint of a Line Segment
• The Vector projection

The Dot Product

• Basic Trig Functions
• Vectors

• Definition of Dot Product
• Properties of Dot Product
• Angle between vectors
• Orthogonal vectors

The Cross Product

• Basic Trig Functions
• Determinants
• Vectors

• Definition of Cross Product
• Properties of the cross product
• Area of a parallelogram
• Cross product as a determinant

Equations of Lines, Planes and Surfaces in Space

• The Dot Product
• The Cross Product
• Quadratic Functions
• Parametric Equations

• Write the vector, parametric equation of a line through a given point in a given direction, and a line through two given points.
• Find the distance from a point to a given line.
• Write the equation of a plane through a given point with a given normal, and a plane through three given points.
• Find the distance from a point to a given plane.

Cylinders and Quadratic Surfaces

• Quadratic Functions
• Parametric Equations
• Conics

• Find equations for cylinders that are generated by rotating lines that are parallel to a plane
• Understand basic quadratic surfaces
• Understand general quadratic surfaces

Curves in Space and Vector-Valued Functions

• Parametric Equations
• Vectors
• The Derivative as a Function
• The Limit of a Function
• Continuity of a function
• The Dot Product
• The Cross Product

• Vector functions
• Limits of vector functions
• Continuity of vector functions
• Differentiation rules for vector functions
• Curves and paths in space

Arc Length

• The Length of a Line Segment
• Vector Functions
• Integrals of Vector Functions

• The arc Length of a vector function
• Arc length parameterization

Motion in Space

• Vectors
• Parametric Equations
• The Cross Product
• Derivatives of Vector Functions

• The Unit tangent vector
• The curvature
• The Principal Unit Normal Vector
• The Binormal Vector
• The tangential and normal components of acceleration
• The Torsion

Functions of Several Variables

• Domain of a Function
• Range of a Function
• Solving Inequalities
• Graphing a Function

• Functions of two variables
• Functions of three variables
• Domain and range of multivariable functions
• Bounded regions
• Graphs and level curves of two variable functions
• Level surfaces of three variable functions

Limit and Continuity of Function of Several Variables

• The Limit and Continuity of a Function
• The Limit Laws for Functions
• Composition of Functions
• The Dot Product

• Limits of functions of two variables
• Limits of functions of more than two variables
• Properties of limits of functions of several variables
• Two path test of non-existing of a limit
• Continuity for functions of several variables
• Continuity of composition
• Extreme values on closed and bounded domains

Partial Derivatives

• The derivative and second derivative of a function
• The limit and continuity for a function of several variables

• Partial derivatives for functions of two variables
• Partial derivatives for functions of more than two variables
• Partial derivatives and continuity
• Second order partial derivatives
• Mixed derivative theorem

Directional Derivatives and Gradient Vectors

• Trigonometric Functions
• Vectors, Unit Vectors
• Partial Derivatives
• Gradients
• The Dot Product

• Directional derivatives for functions of two variables
• Gradients
• Properties of directional derivatives
• Tangents to level curves
• Directional derivatives for functions of three variables

Tangent Plane Differentiability

• Partial Derivatives
• Parametric Equations of Lines
• Equations of Planes

• Determine the equation of a plane tangent to a given surface at a point
• Determine the parametric equation of a normal line to a given surface at a point
• The linear approximation of a function of two variables at a point
• The definition of differentiability for a function of two variables
• Differentiability implies Continuity
• Continuity of First Partial Derivatives implies Differentiability
• The definition of total differentiability for a function of two variables
• Use the total differential to approximate the change in a function of two variables

The Chain Rule for Functions of more than One Variable

• Differentiation Rules of Functions
• The Chain Rule of Functions
• Partial Derivatives

• Chain rule for functions of one independent variable and several intermediate variables.
• Chain rule for functions of two independent variable and several intermediate variables.
• Method for implicit differentiation.
• The general chain rule for functions of several independent variables

Maxima and Minima Problems

• Extreme values on closed and bounded domains
• Partial Derivatives
• Maxima, Minima and Critical Points of a Function
• Continuity of functions with two variables

• The derivative test for local extreme values
• Extreme values on closed and bounded domains
• Critical points and saddle points for functions of two variables
• Second derivative test for local extreme values
• Absolute maxima and minima on closed and bounded regions

Lagrange Multipliers

• Partial Derivatives
• Critical Points of a Function

• Lagrange Multipliers with One Constraint
• Lagrange Multipliers with Two Constraints

Double Integrals over Rectangular Regions

• Approximating Areas
• Limits of Riemann Sums

• Double Integral is the limit of Double Sums.
• Double Integrals over Rectangular Regions.
• Interated Integrals.
• Fubini's Theorem (part 1).

Double Integrals over General Regions

• Continuity
• Determining Volumes by Slicing
• Double and Iterated Integrals over Rectangular regions

• Double integrals over bounded, general regions.
• Properties of double Integrals.
• Fubini's theorem (part 2)
• Changing the order of Integration.
• Calculating Volumes, Areas and Average Values

Double Integrals in Polar Coordinates

• Double Integrals over General Regions
• Polar Coordinates

• Double Integrals over rectangular polar regions.
• Double Integrals over general polar regions.
• Changing Cartesian Integrals into Polar Integrals.
• Finding Volumes, Areas using Double Integrals in Polar Coordinates.

Triple Integrals in Rectangular Coordinates

• Double Integrals
• Area by Double Integration
• Change of Variables

• Triple Integrals over general bounded regions.
• Finding Volumes by evaluating Triple Integrals.
• Average value of a function in space.
• Changing Integration Order and Coordinate systems.

Triple Integrals in Cylindrical and Spherical Coordinates

• Double Integrals in Polar Form
• Triple Integrals in Rectangular Coordinates

• Integrations in Cylindrical Coordinates.
• Equations relating rectangular and cylindrical coordinates.
• Changing Cartesian integrations into Cylindrical integrations.
• Integrations in Spherical coordinates.
• Equations relating spherical coordinates to Cartesian and cylindrical coordinates.
• Changing Cartesian integrations into Cylindrical integrations.

Applications of Multiple Integrals

• Double Integral
• Triple Integrals

• Finding Masses, Moments, Centers of Masses, Moments of Inertia in Two Dimensions.
• Finding Masses, Moments, Centers of Masses, Moments of Inertia in Three Dimensions.

Vector Fields

• The Dot Product
• Directional Derivatives and Gradient Vectors
• Parametric Equations
• Line Integrals of Scalar Functions

• Vector Fields
• Gradient Fields
• Line Integrals of vector fields
• Line integrals with respect to each components direction
• Work done by a force over a curve in space
• Flow integrals and circulation for velocity fields
• Flux across a simple closed plane curve

Line Integrals of Scalar Functions

• Parametric Equations
• Curves in Space and Vector Functions
• Arc Length

• Evaluating a Line Integral
• Additivity of Line Integrals
• Mass and Moments
• Line Integrals in the plane

Conservation Fields

• Vector Fields and Line Integrals
• Partial Derivatives
• Gradient Fields
• Tangent Planes and Differentials

• Path Independence
• Piecewise smooth curves and connected domains in open regions
• Line integrals in Conservation fields
• Finding potentials for conservative fields
• Exact Differential forms

Green's Theorem

• Vector Fields and Line Integrals
• Partial Derivatives
• Dot Product
• Path Independence and Conservation Fields

• Circulation Density
• Divergence (flux density) of a vector field
• The two forms of Green's theorem (Tangential and Normal forms)
• Green's theorem for evaluating line integrals