EG325 – Mechanics of Materials II EG325 – Exclusive Course Details

EG325 Course Introduction

is a course that covers the design and analysis of composite structures. The learning outcomes are: 1. To introduce students to the concepts of composite structures, including fiber reinforced polymer laminates, laminate composites and sandwich composites. 2. To introduce students to the analysis of composite structures using finite element method, multibody dynamics and optimization methods. 3. To enable students to understand the mechanical properties and behaviour of composite materials.

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Course Introduction for EG331 Course Introduction for EG331

EG325 Course Description

Instructors: Xiaofang Lu (lmf102@cornell.edu) and Julie Yeh (jyh327@cornell.edu) Course Overview This course is for students with some background in mechanics and analysis of beams, shells, and composite materials. The first half of the semester will cover basic fundamentals of constitutive relationships such as elastic modulus, density, etc. A different approach to the stresses in a structure and in particular beams is adopted in the second half of the semester. Stress

Universities Offering the EG325 Course

McMaster University

We found 1 university offering this course for McMaster University. EG325 Mechanics of Materials II (EG325) is offered by McMaster University. For more information, you can view the university page on Unimarathon Courses website.

This course is designed to teach the fundamental principles and concepts in mechanics of materials, with an emphasis on stress-strain behavior and failure of engineering materials and structures. Emphasis will be placed on vector analysis, stress strain theory, plane stress and plane strain theories,

EG325 Course Outline

Spring 2007 Instructor: Dr. Henry J. Teichmann Office hours: Thursday 1:00 – 2:00, Friday 10:30 – 11:30 in lecture or by appointment Office phone number: (310) 206-7288 FAX number (310) 206-7866 Office email address: Teichmann@semicon.wsu.edu E-Mail address: Henry.Teichmann@wsu.edu Course website www.seminar.wsu.edu

EG325 Course Objectives

1. Compare and contrast the methods for calculating stress and strain in single-lattice models of isotropic materials. 2. Compare the difference between linear elastic and shear elastic behavior using linear elastic shear theory. 3. Use the GNEA3-DRAFTS() function to calculate an equivalent stress field for a multilayered material. 4. Calculate the total stress distribution in a multilayered material. 5. Calculate the shear strain and the percentage change in strain

EG325 Course Pre-requisites

Course Title: Mechanics of Materials II (EG325) Prerequisite: EG125 Mechanics of Materials I and/or EG125B Mechanics of Materials II or corresponding course in this sequence
Faculty: Zollinger, Frank
Course Description:
This is an upper-level course in mechanics which emphasizes the physical understanding of the properties of materials. The analysis of mechanisms that produce stresses, displacements, strains, and rotations is emphasized. The emphasis on physical understanding will be achieved by focusing on experimental investigations where only theory

EG325 Course Duration & Credits

Course

EG 325 Mechanics of Materials II EG 325 Mechanics of Materials II

The course is divided into two main parts: The strength of materials, which is the study of the strength and deformation characteristics of solids. The theory and application of material properties to mechanics, which deals with the design principles for improving mechanical properties. For example: the use of grades or engineering properties when designing a new product.

Course Content:

The theoretical introduction to mechanics and analysis of stress, strain, load and deformation.

EG325 Course Learning Outcomes

at The University of Adelaide

To provide students with a critical understanding of the dynamics of materials, such as their behaviour under load. To provide students with a critical understanding of the interaction between material properties and structural integrity.

Details

Study Type Undergraduate Level 1
Session First Sub Session Credit Points 12 credits (6 points)
Campus None. Sectors Not applicable.

EB329 – Mechanics of Materials II (EB329)

Credit Points: 12.0; Year: 2

EG325 Course Assessment & Grading Criteria

1. Midterm Exam – Covers material in the lecture and laboratory sections. This is not cumulative, but has 5 questions each worth 10 points, or a total of 50 points for the exam. 2. Final Exam – Covers all major topics from lecture and laboratory sections. This is cumulative, but has 3 questions each worth 10 points, or a total of 30 points for the exam. There are no penalty or credit changes for taking the exam late. The final

EG325 Course Fact Sheet

Course Description

Course Objectives The course will cover many topics including: Bolted joints, Welded connections, Friction, Torsion and Unsymmetrical loading, Buckling and Deflection of members. This course is designed to help the student understand material behavior through geometrically nonlinear methods. Topics covered are: Determining forces due to loads; Methods for determining forces due to loads; Analysis of various bolted connection types; Analysis of various welded connection types; Buckling analysis; Torsion

EG325 Course Delivery Modes

Course Type Hours / Credits Total ECTS Credits Lecture 12 2.0 2.0 Laboratory / Practicals (12 days) 44 14.0 7.0 Tutorial / Additional Lectures (2 x 4 hours) 22 7.0 3.5 Total Hours ECTS Credit Hours Learning Outcomes Upon completion of this course, students should be able to: be able to solve the problems for statics of rectangular structures with reinforcement and simple shear and bending

EG325 Course Faculty Qualifications

Course Faculty Qualifications for EG325 – Mechanics of Materials II (EG325) Professor Dr. Abd El-Hady Elnagy

Head of Department and Acting Head of the College of Engineering and Applied Sciences (CEAS)

E-Mail: egnagy@ceas.cornell.edu Lecturer Dr. Mohamed S. Alhassan Associate Professor, Department of Mechanical and Aerospace Engineering, Cornell University

E-Mail: mohamed.alhassan@cornell.edu Assistant Professor Dr.

EG325 Course Syllabus

Course Description – To provide the student with a knowledge of the formulation and use of Newton’s laws of motion, basic mechanics, and stress and strain. To provide an understanding of the behavior of solids in both statics and dynamics with emphasis on elastic deformation. Prerequisite: EG 200 or EMA 100. Online Resources / Course Projects Title Lecture Time Notes Video lecture for Mechanics of Materials I (EG325) – Week 1 Instructors / Exam Timers Instructor; Lab Coordinator; Richard An

Suggested EG325 Course Resources/Books

– Fall 2015

Mechanics of Materials II (EG325) – Fall 2016

Mechanics of Materials II (EG325) – Spring 2017

Mechanics of Materials II (EG325) – Summer 2017

3. General Information

The course covers the mechanics of materials, including constitutive relations and their application to structural analysis. Some examples include the elastic-plastic behavior of beams and columns, the failure modes of beam columns, and the

EG325 Course Practicum Journal

is a course at the University of Minnesota that

COURSE SYLLABUS EG 415 – Mechanics of Materials Fall Semester 2016 Instructor: Dr. Jeffrey Carstensen, MSME Department of Mechanical Engineering and Aerospace Engineering

TM-11 Course syllabus Materials Science & Engineering Department of Mechanical Engineering University of Wisconsin-Madison Office Hours: Tuesday 3 4pm or by appointment Course Description Students

Mechanics/Engineering Mechanics with Statics/Electromagnetism (E&M

Suggested EG325 Course Resources (Websites, Books, Journal Articles, etc.)

(May 2014)

For the 2014-15 year, we will have a modified load case of torsion applied in both directions with uniaxial stiffness. In this case, the stress-strain relationship is determined by the yield criterion of specimen material. Material selection should be based on the type of damage present and so should be considered when selecting a constitutive law for dealing with the uniaxial stresses and strains. For information on how to select a constitutive law,

EG325 Course Project Proposal

7-2 • Determine the direction of the reaction force for a beam of constant width and length. -Static analysis can be done as well but this analysis is typically limited to applied forces and also typically doesn’t account for external forces. (But can still be useful in statics problems) – Forces acting on a beam are shown here. Types of Forces. , 2013, pp. Gravitational Force: If there is no net force acting on the object, it will remain at

EG325 Course Practicum

Related EG325 Courses

Spring 2016 PUMPS I, II (EG324) Spring 2016 CONSTRUC STS (EG323) Spring 2016 CONSTRUC STS (EG322) Winter 2015 CONSTRUC STS (EG321) Winter 2015 PUMPS I, II (EG320) Winter 2015 CONSTRUC STS (EG319) Winter 2014 PUMPS I, II (EG318) Winter 2014 PUM

Midterm Exam

Spring 2006 Instructor: David B. Fountaine Office: 232 Haggard Hall Email: bdfountaine@bu.edu or ffountain@bu.edu Office Hours: by appointment Course Description This course is an upper-level undergraduate course in mechanics of materials. The primary objective is to provide a solid background for further study of the mechanics of materials, in particular strength and deformation of members, plates and shells. Emphasis is on the mathematical tools required to solve these problems and their

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About The Course This course is designed to cover the basics of Mechanics of Materials II (EG325) in a comprehensive yet concise manner.

Before taking this course, you should have taken the following:

EG121 Mechanics of Materials I (used as an introduction

What Should Students Expect to Be Tested from EG325 Midterm Exam

– Course Hero

Eg325 Midterm Exam #1?
Answer Key for Eg325 Midterm Exam?

Question: What Should Students Expect to Be Tested from EG325 Midterm Exam for EG325 Mechanics of Materials II (EG325) – Course Hero

Key: A B C D
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How to Prepare for EG325 Midterm Exam

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Monday, June 16, 2008

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Midterm Exam Questions Generated from Top 100 Pages on Bing

– University of Illinois at Urbana-Champaign Fall 2018 Syllabus. The main purpose of this course is to provide students with a background in the basic principles of mechanics of materials and the development of practical computational and analytical tools, which will be used in designing members, beams, shells, trusses, frames, springs, and other structures. 1: Elasticity Theory Mechanics. Principles of mechanics of materials (17%) Problem solving skills and theory (83%). The Mechanics Lab exercises are

Midterm Exam Questions Generated from Top 100 Pages on Google

(Fall 2012)

Homework #3 for EG325 – Mechanics of Materials II (EG325) (Fall 2012)

Homework #2 for EG325 – Mechanics of Materials II (EG325) (Fall 2012)

Homework #1 for EG325 – Mechanics of Materials II (EG325) (Fall 2012)

Homework #0 for EG325 – Mechanics of Materials II (EG325) (Fall 2012)

Notes

This course is taught

Final Exam

3/31/2012 Prerequisites: EG200 with a grade of C- or better, or completion of one semester of engineering or physics. There is no lab component for this course. Hours per week: 3 lecture, 0 laboratory

Textbook: Engineering Mechanics: Dynamics 11th ed., by James D. Stegle; Pearson, New Jersey, 2011; ISBN-10: 0132457517; ISBN-13: 978-013245751

Top 100 AI-Generated Questions

– Fall 2017

Course code: EG325

Course Code: EG325

Instruction Type:

Instructor:

Day & Time:

Location:

Course Description

Course Number and Title

EG325 Mechanics of Materials II

M

What Should Students Expect to Be Tested from EG325 Final Exam

– 2015

Test #3: – Monday, December 14, 2015 Test #4: – Wednesday, December 16, 2015 Midterm: – Monday, December 21, 2015 Final Exam: – Friday, December 25, 2015 (2 p.m. or earlier if a holiday falls on the weekend)

How to Prepare for EG325 Final Exam

class

The students are advised to solve the sample exam questions to understand the nature of the test. This will help them in preparing well for the exam and score good marks.

The EG325 Final Exam consists of 70 MCQs. There are total 40 questions of 1 mark each and remaining 30 questions of 2 marks each.

How can I get online practice for EG325 Final Exam?

There are many websites available that provide online practice tests for various competitive exams. By using these

Final Exam Questions Generated from Top 100 Pages on Bing

1. A three-dimensional structural frame is to be designed to carry a live load of 3,500 lb-ft and a dead load of 2,000 lb-ft. The span for the frame is designed as a rectangular box with an angle of 60° and a width of 13 ft. What size steel plates would you recommend for the body of the structure? Draw the cross-sections and indicate their locations relative to the supports on each side. (a) Assuming no loads are

Final Exam Questions Generated from Top 100 Pages on Google

– 2-Page PDF

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Week by Week Course Overview

EG325 Week 1 Description

Week 1 – Problem Set 3 . -M6-7, M6-8, M6-10 due Monday June 4th. -Exercises (M6-2 , M6-5, M6-7) due Monday June 11th. Course Objectives After studying the course objectives and completing the required assignments in this course, you should be able to: • Describe the difference between a load and a stress • Apply the principles of statics to analysis of

EG325 Week 1 Outline

Week 1 The Importance of Engineering Mechanics to Civil Engineering, Day 2: Discussion on the results and implications of your experimental study. Discussion Questions on EG325 Week 1 – General Purpose Structures http://www.essaytown.com/doc/3798840/Week-1-GP-Stability-EQs http://www.essaytown.com/doc/3798837/Week-1-Qs – General Purpose Structures (EG325) Week 2 The Influence of Materials on Elasticity, Day

EG325 Week 1 Objectives

Week 1 Assignment: Introduction to Mechanics of Materials The purpose of this assignment is to make you familiar with the differences between static and dynamic analysis. For this discussion, we will focus on static problems.

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EG325 Week 1 Pre-requisites

Week 1 Readings: Sections 1-3: – Chapter 2 & Chapter 3: Mechanics of Materials, and Chapters 4 & 5: The Classical Theory of Elasticity. • Chapter 6: Introduction to Stress and Strain. • Section 3.1: Viscoplasticity • Section 3.2: Plastic Deformation • Section 4.1: Creep • Section 4.2: Fatigue

EG325 Week 2 Readings

EG325 Week 1 Duration

Week 1 DUE: by 11:59 PM, August 10, 2016 The purpose of this course is to continue your understanding of mechanics. As you work through the material in this course, you should expect to be thoroughly challenged. There will be no homework assignments for this class; however, quizzes and exams will be included in the grading scheme. You are expected to review the textbook readings as needed.

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EG325 Week 1 Learning Outcomes

Week 1 Learning Outcomes for EG325 – Mechanics of Materials II (EG325) Week 1 Learning Outcomes for EG325 – Mechanics of Materials II (EG325) Week 2 Learning Outcomes for EG325 – Mechanics of Materials II (EG325) Week 2 Learning Outcomes for EG325 – Mechanics of Materials II (EG325) Week 3 Learning Outcomes for EG325 – Mechanics of Materials II (EG325) Week 3 Learning Outcomes for EG325 –

EG325 Week 1 Assessment & Grading

Week 1 Assignment (Week 1) EG325 Week 2 Assessment & Grading for EG325 – Mechanics of Materials II (EG325) Week 2 Discussion (Discussion Week 2) EG325 Week 3 Assignment (Week 3) EG325 Week 4 Assignment (Week 4)

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EG325 Week 1 Suggested Resources/Books

1. Bechtel, W. L. Mechanics of Materials (6th ed.). New York: Prentice-Hall, 2003. 2. Mott, B. Introduction to Design of Experiments. Boston: McGraw-Hill, 1995.
3. Bechtel, W. L., and R.A. Weygandt; Introduction to Engineering Economy (7th ed.). Boston: McGraw-Hill Irwin, 2012.

EG325 Week 1 Assignment (20 Questions)

week 1 Discussion (2 pages) for EG325 Week 1 Assignment (20 Questions) for EG325 – Mechanics of Materials II (EG325) week 1 Discussion (2 pages)

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EG325 Week 1 Assignment Question (20 Questions)

Week 1: Question 1 – General Response (20 Points) All forces are applied to a system of objects. The object in the diagram is an aluminum ball attached to a string, and this is being pulled up by another object, a wooden stick. If the system remains at rest, what force must be applied to the system if it is to remain stationary? (10 Points) [Hint: Recall that F = ma.] The force required would be equal to the weight of the ball +

EG325 Week 1 Discussion 1 (20 Questions)

Week 1 Discussion 1 (20 Questions) for EG325 – Mechanics of Materials II (EG325) For more course tutorials visit www.uophelp.com Note: Due Week One Discussion includes 3 sources. Each source must be at least a few sentences in length and must be cited according to APA Guidelines. This Discussion requires your written response to each of the questions found in the weekly discussions. The following is an example of how you should respond to these questions: How does small changes in material

EG325 Week 1 DQ 1 (20 Questions)

Week 1 DQ 1

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The guide will be given out after each question. You must submit answers to all questions on this assignment. If you have no solution to a problem, do not guess! This will only waste your time and will not help your grade. The 3 points maximum per problem are

EG325 Week 1 Discussion 2 (20 Questions)

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EG325 Week 1 DQ 2 (20 Questions)

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EG325 Week 1 Quiz (20 Questions)

WEEK 1 QUIZ (20 QUESTIONS) FOR EG325 – MECHANICS OF MATERIALS II (EG325) STUDENT LEARNING OUTCOMES: Upon successful completion of this course, students will be able to: 1. Define and classify materials in terms of their mechanical properties. 2. Apply different theories and principles of mechanics of materials

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EG325 Week 1 MCQ’s (20 Multiple Choice Questions)

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EG325 Week 2 Description

Week 2 This tutorial contains 5 exercises on Mechanics of Materials II (EG325) and use the material provided in this tutorial as a reference for your answers. Week 2 Exercises • The mechanical power transmission system shown below has been designed to transmit a force (P) that is applied at a specific point on the cable, through the pulley and into the gear that drives the chain. A load is applied to the wire as shown in Figure 4 below. The load will change as a

EG325 Week 2 Outline

Week 2 Outline for EG325 – Mechanics of Materials II (EG325) Week 1 DIRECTIONS: Use this outline to record your notes as you read through the material. You will be tested on this information on the midterm and final exam. [Note: The purpose of these outlines is not to prepare you for the course itself; rather, they are designed to assist in your study of the text. Remember that it is up to you to put together a comprehensive study plan in preparation for

EG325 Week 2 Objectives

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EG325 Week 2 Pre-requisites

Week 2 Pre-requisites for EG325 – Mechanics of Materials II (EG325) Week 2 Pre-requisites for EG325 – Mechanics of Materials II (EG325)

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EG325 Week 2 Duration

Week 2 Assignment:

ATTACHMENTS

Attachment 1

Slide 3 of 6

Topic

1. Why is material selection important? What are some of the major decisions that need to be made when selecting materials for a design?

2. In your opinion, how has the technology of materials changed over time? How can you use this information to help make design decisions in the future?

3. Describe your personal values and beliefs about using different materials in designs.

4. Select a

EG325 Week 2 Learning Outcomes

Click Here to Purchase the Entire Course Click Here to Purchase Individual Assignments Click Here to Purchase Books To access this material you must be a registered member. Registered members have access to all of the past weeks and final exams for this course, as well as chapter questions and answers, all course lecture notes, the discussion board forum, and full solutions manuals.

EG325 Week 2 Assessment & Grading

Week 2 Assessment & Grading for EG325 – Mechanics of Materials II (EG325) Week 2 Assesment & Grading for EG325 – Mechanics of Materials II (EG325) Week 3 Assessment & Grading for EG325 – Mechanics of Materials II (EG325) Week 3 Assessment & Grading for EG325 – Mechanics of Materials II (EG325) Week 3 Assignment: Design a structural frame with a load capacity, Minimum bending stress, and maximum shear stress

EG325 Week 2 Suggested Resources/Books

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EG325 Week 2 Assignment (20 Questions)

Week 2 Assignment (20 Questions) for EG325 – Mechanics of Materials II (EG325) Week 2 Assignment (20 Questions) for EG325 – Mechanics of Materials II (EG325) Week 2 Assignment (20 Questions) for EG325 – Mechanics of Materials II (EG325)

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EG325 Week 2 Assignment Question (20 Questions)

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EG325 Week 2 Discussion 1 (20 Questions)

Week 2 Discussion 1 (20 Questions) for EG325 – Mechanics of Materials II (EG325) Week 2 Discussion 1 (20 Questions) for EG325 – Mechanics of Materials II (EG325)

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EG325 Week 2 DQ 1 (20 Questions)

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EG325 Week 2 Discussion 2 (20 Questions)

Week 2 Discussion 2 (20 Questions) for EG325 – Mechanics of Materials II (EG325) Week 2 Discussion 2 (20 Questions) for EG325 – Mechanics of Materials II (EG325)

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EG325 Week 2 DQ 2 (20 Questions)

Week 2 DQ 2 (20 Questions) for EG325 – Mechanics of Materials II for Free. If you find errors or missing information on this page, please fill out our feedback form . The second part of the module is the learning outcomes based assessment which consists of two tasks: task one, is worth 40% and task two, is worth 60%. The second part of the module is the learning outcomes based assessment which consists of two tasks: task one, is worth 40

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EG325 Week 2 MCQ’s (20 Multiple Choice Questions)

Test 2 Practice Problems (20 Multiple Choice Questions) for EG325 – Mechanics of Materials II (EG325) 9

10 Grade: % Complete the following as a first draft. Use the previous week s assignments, readings, and homework assignments to help guide you. On a separate piece of paper, write out your answers to each question. You may use notes or other reference materials, but you must include in your paper the relevant references that were given during the lecture. Be sure to cite

EG325 Week 3 Description

Week 3 Assignment 1 (10 points) The weight of a box is calculated as 125 pounds, the maximum load it can support. A force of 160 pounds is applied to the top of the box, and it remains in place. What must be the tension in the string which is attached to the box? Week 4 Description for EG325 – Mechanics of Materials II (EG325) Week 4 Assignment 2 (10 points) A second box is placed on top of an

EG325 Week 3 Outline

Week 3 Outline for EG325 – Mechanics of Materials II (EG325) Course: Engineering Education and Curriculum (EG)

Academic Year: 2012/2013

Term: Summer II

Total Credits: 4.00 University of Iowa, Department of Electrical and Computer Engineering, College of Engineering Instructor: Andrew M. Klinke

Telephone Number: (319) 335-3400 Email Address: klinke@uiowa.edu Office Location:

Room 136 Eddy

EG325 Week 3 Objectives

Week 3 Handout (PDF) Week 4 Objectives for EG325 – Mechanics of Materials II (EG325) Week 4 Handout (PDF) Week 5 Objectives for EG325 – Mechanics of Materials II (EG325) Week 5 Handout (PDF)

Syllabus

This course covers the physics of materials, including failure mechanisms and design criteria. The focus is on both the solid mechanics of plane stress and shear deformation and the solid mechanics of plane strain, in

EG325 Week 3 Pre-requisites

Week 3 Pre-requisites for EG325 Week 3 Pre-requisites for EG325 – Mechanics of Materials II (EG325) Week 3 Pre-requisites for EG325 Week 4 Pre-requisites for EG325 – Mechanics of Materials II (EG325) Week 4 Pre-requisites for EG325 Week 4 Pre-requisites for EG325 – Mechanics of Materials II (EG325) Week 4 Pre-requisites for EG325 Week 5 Pre-requisites for EG325 –

EG325 Week 3 Duration

Week 3 Duration for EG325 – Mechanics of Materials II (EG325) – WriteUp on the site. The deadline is Thursday 5:00 pm! Please write in MLA format and include proper citation.

Week 2 DUE DATE October 17, 2018 at

09:00 AM

Topic: Electrical Principles and Applications Due Date: Oct 18, 2018

Electrical Principles and Applications Unit Two Quiz. Study Guide #1 Due by end of class on October

EG325 Week 3 Learning Outcomes

Week 3 Discussion Questions 1. The purpose of the following discussion is to discuss a particular engineering problem that you could solve using a computer program. You should describe what the computer program does, why it was developed, and how it solves the problem. As you write your discussion, follow APA guidelines for citations and references. 2. What would be the value of using a model for a complex system? Why? To determine whether the model represents or explains observations? To provide additional information about system

EG325 Week 3 Assessment & Grading

Week 3 Assessment & Grading for EG325 – Mechanics of Materials II (EG325) Week 4: Assignment 1: Fracture and Fatigue Analysis II (EG325 Week 4 Assessment & Grading for EG325 – Mechanics of Materials II (EG325)

EG325 Week 3 Suggested Resources/Books

Week 3 Suggested Resources/Books for EG325

Week 4 Suggested Resources/Books for EG325 – Mechanics of Materials II (EG325) Week 4 Suggested Resources/Books for EG325

Week 5 Suggested Resources/Books for EG325 – Mechanics of Materials II (EG325) Week 5 Suggested Resources/Books for EG325

Week 6 Suggested Resources/Books for EG325 – Mechanics of Materials II (EG325) Week 6 S

EG325 Week 3 Assignment (20 Questions)

Week 3 Assignment (20 Questions) for EG325 – Mechanics of Materials II (EG325) (Read the instructions in the discussion forum below carefully. Do not post the same response twice.)Assignment 1: Tensile Test of a Reinforced Concrete Beam with Steel BarsThis assignment requires you to apply concepts learned from lectures and readings to a problem involving the design and evaluation of a reinforced concrete beam that is subjected to a tensile load. Please answer each question using an equal amount of information

EG325 Week 3 Assignment Question (20 Questions)

Week 3 Assignment Question (20 Questions) for EG325 – Mechanics of Materials II (EG325) For more course tutorials visit www.uophelp.com Week 1 Discussion Question (2)

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