2.2 Linear And Nonlinear Relationsmr. Mac's Page



Math 234 - Applied Mathematics I - Course Outline, Fall, 2014

Represent functions (linear and non-linear) in multiple ways, including tables, algebraic rules, graphs, and contextual situations and make connections among these representations. Choose the appropriate functional representation to model a real world situation and solve problems relating to that situation. In 3ds Max 2014 or later the option to change the File Input and Output gamma no longer exists The option has been removed to ensure alignment with the industry standard values of gamma 1.0 for linear workflow (32-bit files) and 2.2 for non-linear You can modify the 'CurrentDefaults.ini' file found in the following location. Chapter 2 Linear Relations and Functions 54D Writing Linear Equations This lesson focuses on the slope and y-inter-cept of a linear equation. In the slope-intercept form of a linear equation, y mx b, m represents the slope of the line and b is the y-intercept. Students use two forms of a linear equation, the slope-intercept form and the point. Many nonlinear problems in structural dynamics can be solved as piece-wise linear systems. This includes (1) nonlinearities in stiffness due to material properties, gaps, and geometric conditions such as large deflections where small angle approximations are not adequate; (2) nonlinearities in damping such as discrete viscous dampers where the damping force is proportional to velocity squared.

Relationsmr.

This is a tentative outline and will be updated at least 24 hours in advance before each class. Lecture notes are posted under the sections.
Exam 1 – Sept 19 Exam 2 – Oct 8 Exam 3 – Oct 31 Exam 4 – Nov 21

2.2 Linear And Nonlinear Relationsmr. Mac's Page Pdf

Date

Topic/Section

Assignments

Aug 27

Matrix algebra/(8.1)


Lecture Notes

Homework 1:

Page 362: 5, 9, 11, 13, 17, 21,

23, 29, 37, 38

Turn in the following on

Friday, Aug 29 -

Page 362: 12, 18, 22(c)

Aug 29

Systems of Linear Equations/(8.2)


Lecture Notes

Homework 2:

Page 375: 3, 5, 9, 11, 15, 21

Turn in the following on

Tuesday, Sept 2 -

Page 375:

Use Gaussian Elimination and

Backward Substitution to solve the

systems.Specify each elementary

row operation and verify each

solution:

6,12 (general solutions), 14

Sept 1

Systems of linear equations/(8.2)

Sept 2

Systems of linear equations/(8.2)

Homework 3:

Sept 3

Rank of a Matrix/(8.3)


Lecture Notes

Sept 5

Rank of a Matrix/(8.3)

Sept 8

Determinants and Properties/(8.4),(8.5)


Lecture Notes

Sept 9

Inverse of a Matrix/(8.6)


Lecture Notes

Sept 10

Inverse of a Matrix/(8.6)

Sept 12

Cramer's Rule/(8.7)


Lecture Notes

Sept 15

Eigenvalue Problem/(8.8)


Lecture Notes

Sept 16

Eigenvalue Problem/(8.8)

(b) applications

Sept 17

Review for Hour Exam #1: Section (8.1)-(8.8)

Sept 19

Sept 22

Applications and Uses of Technology


Lecture Notes (pdf)
Traffic Flows (pdf)
Lecture Notes (tex)

Sept 23

Definitions and terminology/(1.1)-(1.2)

Sept 24

Solution curves without the solution/(2.1)


Lecture Notes on Solution Curves

Sept 26

Separable variables/(2.2)


Lecture Notes on Separable Equations

Sept 29

Linear differential equations/(2.3)


Lecture Notes on 1st-Order Linear Diff. Equations

Sept 30

Exact Equations/(2.4)


Lecture Notes on exact Linear Diff. Equations

Oct 1

Exact Equations/(2.4)

Oct 3

Solutions by substitutions/(2.5)

Lecture Notes on Substitution

Oct 6

Solutions by substitutions/(2.5)

Oct 7

Review for Hour Exam #2:
Section (1.1)-(1.2),(2.1)-(2.5)

Oct 8

Hour Exam #2:
Section (1.1)-(1.2),(2.1)-(2.5)

Oct 10

No Class (Open House for Parents)

Oct 13

Higher-order differential equations/(3.1)

Oct 14

Reduction of order/(3.2)

Oct 15

Homogeneous linear equations with constant coefficients/(3.3)

Oct 17

Homogeneous linear equations with constant coefficients/(3.3)

Oct 20

Nonhomogeneous linear equations/(3.4)

Oct 21

Nonhomogeneous linear equations/(3.5)

Oct 22

Leadership Day (no class)

Oct 24

Cauchy-Euler equations/(3.6)

Oct 27

Systems of linear differential equations and
Homogeneous Linear Systems/(10.1)(10.2)

Oct 28

Homogeneous Linear Systems/(10.2)

Oct 29

Review for Hour Exam #3
Section (3.1)-(3.6), (10.1)-(10.2)

Oct 31

Nov 3

Nonhomogeneous linear systems/(10.4)

Nov 4

Election Day (no class)

Nov 5

Laplace transform/(4.1)

Nov 7

Inverse of a Laplace transform/(4.2)

Nov 10

Laplace transform of a derivative/(4.2)

Nov 11

Translation Theorems/(4.3)

Nov 12

Translation Theorems/(4.3)

Nov 14

Translation Theorems/(4.3)

Nov 17

Properties of Laplace Transforms/(4.4)

Nov 18

Properties of Laplace Transforms/(4.4)

(b) solving differential-integral equations

Nov 19

Review for Hour Exam #4:
Section (10.1)-(10.4),(4.1)-(4.4)

Nov 21

Hour Exam #4:
Section (10.1)-(10.4),(4.1)-(4.4)

Thanksgiving break!

Dec 1

Properties of Laplace Transforms/(4.4)

Dec 2

Dirac Delta Functions/(4.5)

Dec 3

Solving differential equations using Laplace Transform/(4.6)
Lecture Notes

Dec 5

Solving differential equations using Laplace Transform/(4.6)

Dec 8

Solving differential equations using Laplace Transform/(4.6)

Dec 9

Review for final

Dec 10

Review for final

Dec 17

(Wednesday) Final Exam - 1:00pm - 4:00pm

2.2 Linear And Nonlinear Relationsmr. Mac's Page Key

3.2.2 Dirty paper coding. Dirty paper coding is known to be the sum-rate capacity-achieving technique in MU MIMO downlink. Hence, it is used as an upper bound for the suboptimal, linear techniques. As a nonlinear technique, DPC is based on the idea of known interference precancelation while serially encoding user signals.

Linear

2.2 Linear And Nonlinear Relationsmr. Mac's Page Examples

Math 234 - Applied Mathematics I - Course Outline, Fall, 2014

This is a tentative outline and will be updated at least 24 hours in advance before each class. Lecture notes are posted under the sections.
Exam 1 – Sept 19 Exam 2 – Oct 8 Exam 3 – Oct 31 Exam 4 – Nov 21

Date

Topic/Section

Assignments

Aug 27

Matrix algebra/(8.1)


Lecture Notes

Homework 1:

Page 362: 5, 9, 11, 13, 17, 21,

23, 29, 37, 38

Turn in the following on

Friday, Aug 29 -

Page 362: 12, 18, 22(c)

Aug 29

Systems of Linear Equations/(8.2)


Lecture Notes

Homework 2:

Page 375: 3, 5, 9, 11, 15, 21

Turn in the following on

Tuesday, Sept 2 -

Page 375:

Use Gaussian Elimination and

Backward Substitution to solve the

systems.Specify each elementary

row operation and verify each

solution:

6,12 (general solutions), 14

Sept 1

Systems of linear equations/(8.2)

Sept 2

Systems of linear equations/(8.2)

Homework 3:

Sept 3

Rank of a Matrix/(8.3)


Lecture Notes

Sept 5

Rank of a Matrix/(8.3)

Sept 8

Determinants and Properties/(8.4),(8.5)


Lecture Notes

Sept 9

Inverse of a Matrix/(8.6)


Lecture Notes

Sept 10

Inverse of a Matrix/(8.6)

Sept 12

Cramer's Rule/(8.7)


Lecture Notes

Sept 15

Eigenvalue Problem/(8.8)


Lecture Notes

Sept 16

Eigenvalue Problem/(8.8)

(b) applications

Sept 17

Review for Hour Exam #1: Section (8.1)-(8.8)

Sept 19

Sept 22

Applications and Uses of Technology


Lecture Notes (pdf)
Traffic Flows (pdf)
Lecture Notes (tex)

Sept 23

Definitions and terminology/(1.1)-(1.2)

Sept 24

Solution curves without the solution/(2.1)


Lecture Notes on Solution Curves

Sept 26

Separable variables/(2.2)


Lecture Notes on Separable Equations

Sept 29

Linear differential equations/(2.3)


Lecture Notes on 1st-Order Linear Diff. Equations

Sept 30

Exact Equations/(2.4)


Lecture Notes on exact Linear Diff. Equations

Oct 1

Exact Equations/(2.4)

Oct 3

Solutions by substitutions/(2.5)

Lecture Notes on Substitution

Oct 6

Solutions by substitutions/(2.5)

Oct 7

Review for Hour Exam #2:
Section (1.1)-(1.2),(2.1)-(2.5)

Oct 8

Hour Exam #2:
Section (1.1)-(1.2),(2.1)-(2.5)

Oct 10

No Class (Open House for Parents)

Oct 13

Higher-order differential equations/(3.1)

Oct 14

Reduction of order/(3.2)

Oct 15

Homogeneous linear equations with constant coefficients/(3.3)

Oct 17

Homogeneous linear equations with constant coefficients/(3.3)

Oct 20

Nonhomogeneous linear equations/(3.4)

Oct 21

Nonhomogeneous linear equations/(3.5)

Oct 22

Leadership Day (no class)

Oct 24

Cauchy-Euler equations/(3.6)

Oct 27

Systems of linear differential equations and
Homogeneous Linear Systems/(10.1)(10.2)

Oct 28

Homogeneous Linear Systems/(10.2)

Oct 29

Review for Hour Exam #3
Section (3.1)-(3.6), (10.1)-(10.2)

Oct 31

Nov 3

Nonhomogeneous linear systems/(10.4)

Nov 4

Election Day (no class)

Nov 5

Laplace transform/(4.1)

Nov 7

Inverse of a Laplace transform/(4.2)

Nov 10

Laplace transform of a derivative/(4.2)

Nov 11

Translation Theorems/(4.3)

Nov 12

Translation Theorems/(4.3)

Nov 14

Translation Theorems/(4.3)

Nov 17

Properties of Laplace Transforms/(4.4)

Nov 18

Properties of Laplace Transforms/(4.4)

(b) solving differential-integral equations

Nov 19

Review for Hour Exam #4:
Section (10.1)-(10.4),(4.1)-(4.4)

Nov 21

Hour Exam #4:
Section (10.1)-(10.4),(4.1)-(4.4)

Thanksgiving break!

Dec 1

Properties of Laplace Transforms/(4.4)

Dec 2

Dirac Delta Functions/(4.5)

Dec 3

Solving differential equations using Laplace Transform/(4.6)
Lecture Notes

Dec 5

Solving differential equations using Laplace Transform/(4.6)

Dec 8

Solving differential equations using Laplace Transform/(4.6)

Dec 9

Review for final

Dec 10

Review for final

Dec 17

(Wednesday) Final Exam - 1:00pm - 4:00pm





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