4/16/2024 3:13:38 PM	ENGR 34 Course Outline as of Fall 2014	Changed Course
CATALOG INFORMATION
Discipline and Nbr:  ENGR 34	Title:  STATICS
Full Title:  Engineering Mechanics: Statics
Last Reviewed:2/24/2020

Units		Course Hours per Week			Nbr of Weeks	Course Hours Total
Maximum	3.00	Lecture Scheduled	3.00		17.5 max.	Lecture Scheduled	52.50
Minimum	3.00	Lab Scheduled	0		6 min.	Lab Scheduled	0
		Contact DHR	0			Contact DHR	0
		Contact Total	3.00			Contact Total	52.50
		Non-contact DHR	0			Non-contact DHR Total	0

Total Out of Class Hours:  105.00

Total Student Learning Hours: 157.50

Title 5 Category:  AA Degree Applicable
Grading:  Grade Only
Repeatability:  00 - Two Repeats if Grade was D, F, NC, or NP
Also Listed As: 
Formerly: 

Catalog Description:

A vectorial treatment of the principles of statics with application to engineering problems and an emphasis on common engineering computational tools. Students are required to have a graphing calculator.

Prerequisites/Corequisites:
Course Completion of PHYS 40 (formerly PHYS 4A)

Recommended Preparation:

Limits on Enrollment:

Schedule of Classes Information
Description:

A vectorial treatment of the principles of statics with application to engineering problems and an emphasis on common engineering computational tools.

(Grade Only)
Prerequisites:Course Completion of PHYS 40 (formerly PHYS 4A)
Recommended:
Limits on Enrollment:
Transfer Credit:CSU;UC.
Repeatability:00 - Two Repeats if Grade was D, F, NC, or NP

ARTICULATION, MAJOR, and CERTIFICATION INFORMATION

Associate Degree:		Effective:		Inactive:
Area:
CSU GE:	Transfer Area			Effective:	Inactive:
IGETC:	Transfer Area			Effective:	Inactive:
CSU Transfer:	Transferable	Effective:	Fall 1981	Inactive:
UC Transfer:	Transferable	Effective:	Fall 1981	Inactive:
C-ID:

Certificate/Major Applicable: Major Applicable Course

Approval and Dates

Version:	05	Course Created/Approved:	11/15/1991
Version Created:	1/7/2014	Course Last Modified:	5/31/2020
Submitter:	Vince Bertsch	Course Last Full Review:	2/24/2020
Version Status:	Approved Changed Course	Prereq Created/Approved:	2/24/2020
Version Status Date:	2/24/2014	Semester Last Taught:	Spring 2020
Version Term Effective:	Fall 2014	Term Inactive:	Fall 2020

COURSE CONTENT

Student Learning Outcomes:
At the conclusion of this course, the student should be able to:

1.  Apply Newton's 1st and 3rd laws to the force analysis of rigid bodies in static equilibrium.

2.  Use scientific calculators to perform vector operations and solve systems of equations.

3.  Use spreadsheets to analyze statics problems and display results to the standards of an engineering analysis report.

 

Objectives:

Upon completion of the course, students will be able to:

1.  Apply a systematic algorithm to the analysis of statics problems.

2.  Convert between force and position vectors and between Cartesian and spherical coordinate systems using a scientific calculator.

3.  Apply both two and three dimensional vector equations for point equilibrium to solve for the tension or compression in supporting structures.

4.  Compute the moment of a force about a point or an axis using cross product, dot product, and mixed triple product.

5.  Apply moments and couples to determine equivalent force/moment systems on rigid bodies.

6.  Develop vector equations of rigid body equilibrium and solve for the unknown reactions in both two and three dimensions.

7.  Analyze trusses, frames, and machines using the principles of Newton's 1st and 3rd laws.

8.  Construct shear and bending diagrams given load diagrams to describe the internal forces in beams.

9.  Prepare engineering analysis reports with charts, tables, graphics, and proper documentation using spreadsheets.

Optional Objectives:

10.  Apply statics principles to the analysis of dry friction statics problems.

11. Apply statics principles to the analysis of hydrostatic pressure problems.

12. Compute the center of mass, centroid, and moment of inertia for areas, volumes, and masses.

Topics and Scope

1.  General Principles

      A. Newton's Laws

      B. Units of Measurement

      C. Numerical Calculations and Homework Standards

      D. Basic Statics Analysis Algorithms

2.  Vectors

      A. Vector Addition and Vector Components

      B. Force Vectors

      C. Position Vectors

      D. Unit Vectors

      E. Dot Product

      F. Vector Operations on Scientific Calculators

3.  Point Equilibrium

      A. Free Body Diagrams

      B. Coplanar Force Equilibrium Equations

      C. Springs, Pulleys, Maximum-Minimum Relationships

      D. Three Dimensional Equilibrium Problems

      E. Solution of Systems on Scientific Calculators

      F. Independent Variable Solutions on a Spreadsheet

      G. Documentation Standards for Engineering Analysis Reports

4.  Force System Resultants

      A. Moment of a Force at a Point in Two and Three Dimensions

      B. Moment of a Force about an Axis

      C. Cross Product and Mixed Triple Product on Scientific Calculators

      D. Couples

      E. Equivalent Systems

      F. Reduction of Equivalent Systems

      G. Distributed Load Reduction

5.  Equilibrium of a Rigid Body

      A. Standard Reaction Constraints in Two and Three Dimensions

      B. Free Body Diagrams for Rigid Bodies in Two and Three Dimensions

      C. Equilibrium Equations for Rigid Bodies in Two and Three Dimensions

      D. Equilibrium Special Cases: Two Force Bodies, Three Force Bodies

6.  Analysis of Common Engineering Structures

      A. Method of Joints Solutions of Trusses

      B. Method of Sections Solutions of Trusses

      C. Three Dimensional Space Trusses

      D. Frames and Machines

7.  Internal Forces

      A. Section Method for Determining Internal Forces in Two and Three Dimensions

      B. Axial Force and Torque Diagram Construction

      C. Shear and Bending Moment Diagram Construction

Optional Topics:

8.  Friction

      A. Characteristics of Dry Friction

      B. Wedge Friction Problems

      C. Lead Screw Friction Problems

      D. Belt Friction Problems

      E. Bearing Friction Problems

      F. Rolling Resistance Problems

9.  Centroids and Center of Mass

      A. Centroids of Areas and Volumes using Integration and Composite Body Approach

      B. Center of Mass for a System of Particles.

      C. Center of Mass of a Body using Integration and Composite Body Approach

      D. Theorems of Pappus and Guldinus

      E. Hydrostatic Pressure Systems and Their Reduction

10. Moments of Inertia

      A. Moments of Inertia for Areas

      B. Parallel Axis Theorem

      C. Integration and Composite Body Approaches

      D. Moments of Inertia for Masses

Assignments:

1.  Homework:  Approximately 100 problems per semester

2.  Group Assignments: 0-2

3.  Quizzes, 0-10

4.  Midterm exams focused on problem solving: 2-4

5.  Project:  0-1

6.  Final exam focused on solving problems

Methods of Evaluation/Basis of Grade.

Writing: Assessment tools that demonstrate writing skill and/or require students to select, organize and explain ideas in writing.		Writing 0 - 0%
None
This is a degree applicable course but assessment tools based on writing are not included because problem solving assessments are more appropriate for this course.
Problem solving: Assessment tools, other than exams, that demonstrate competence in computational or non-computational problem solving skills.		Problem Solving 10 - 30%
Homework problems, quizzes
Skill Demonstrations: All skill-based and physical demonstrations used for assessment purposes including skill performance exams.		Skill Demonstrations 0 - 0%
None
Exams: All forms of formal testing, other than skill performance exams.		Exams 65 - 85%
Midterms, Final
Other: Includes any assessment tools that do not logically fit into the above categories.		Other Category 0 - 15%
Project, Group Assignments

Representative Textbooks and Materials:

Hibbeler, Engineering Mechanics Statics,13th Ed., Prentice Hall, 2013

Meriam, Engineering Mechanics, Statics, 7th Ed., Wiley, 2012

OTHER REQUIRED ELEMENTS

Student Preparation
Matric Assessment Required:	X	Exempt From Assessment
Prerequisites-generate description:	U	User Generated Text
Advisories-generate description:	NA	No Advisory
Prereq-provisional:	N	NO
Prereq/coreq-registration check:	Y	Prerequisite Rules Exist
Requires instructor signature:	N	Instructor's Signature Not Required
BASIC INFORMATION, HOURS/UNITS & REPEATABILITY
Method of instruction:	02	Lecture
Area department:	ENGR	Engineering and Applied Technology
Division:	73	Science, Technology, Engineering & Mathematics
Special topic course:	N	Not a Special Topic Course
Program Status:	1	Major Applicable Course
Repeatability:	00	Two Repeats if Grade was D, F, NC, or NP
Repeat group id:
SCHEDULING
Audit allowed:	N	Not Auditable
Open entry/exit:	N	Not Open Entry/Open Exit
Credit by Exam:	N	Credit by examination not allowed
Budget code: Program:	0000	Unrestricted
Budget code: Activity:	0901	Engineering
OTHER CODES
Disciplines:	Engineering
Basic Skills:	N	Not a Basic Skills Course
Level below transfer:	Y	Not Applicable
CVU/CVC status:	N	Not Distance Ed
Distance Ed Approved:	N
Emergency Distance Ed Approved:	N
Credit for Prior Learning:	N	Agency Exam
	N	CBE
	N	Industry Credentials
	N	Portfolio
Non-credit category:	Y	Not Applicable, Credit Course
Classification:	Y	Liberal Arts and Sciences Courses
SAM classification:	E	Non-Occupational
TOP code:	0901.00	Engineering, General
Work-based learning:	N	Does Not Include Work-Based Learning
DSPS course:	N	NO
In-service:	N	Not an in-Service Course

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