Contra Costa College Course Outline Department & Number Course Title Prerequisite Challenge Policy Co-requisite Challenge Policy Advisory Automotive Services– AUSER 113 Automotive Suspension and Steering Automotive Fundamentals – AUSER 101 or concurrently AUSER101 Automotive Fundamentals or previously Grade of C or above on challenge test *HOURS BY ARRANGEMENT: N/A Number of Weeks Lecture Hours By Term Lab Hours By Term 18 54 108 *Hours By Arrangement Units 5.0 Hours per term. ACTIVITIES: (Please provide a list of the activities students will perform in order to satisfy the HBA requirement): COURSE/CATALOG DESCRIPTION This course covers the basic fundamentals of automotive suspension and steering systems, providing detailed information on diagnosis and repair of power steering, wheel alignment, tire mounting and balancing, inspection and replacement of suspension and steering components. The course also covers the use of computerized scan tools to diagnose stability control and air bag systems. Best practices concerning safe use of shop equipment and professionalism are emphasized. This course will assist students in preparing for the Automotive Service Excellence (ASE) Suspension and Steering (A-4) examination. Not repeatable. COURSE OBJECTIVES: At the completion of the course the student will be able to: Perform suspension and steering work in accordance with industry best practices and safety precautions. Inspect and repair steering and suspension components. Demonstrate an understanding of, diagnose and repair of power steering systems. Demonstrate the ability to perform vehicle alignment. Mount balance and repair tires. Demonstrate the ability to inspect, service and replace front and rear wheel bearings. Diagnose tire wear irregularities due to suspension or alignment issues. Demonstrate an understanding of common causes of vehicle pulls, hard steering, bump steer, memory steer, torque steer, and steering return concerns and determine necessary action. Utilize specialized scan tools to diagnose airbag, stability control, tire pressure monitor and electronic power steering systems. Demonstrate the ability to safely disable Supplemental Restraining System (SRS) airbag systems. INTENDED STUDENT LEARNING OUTCOMES: The student will be able to work safely in the auto shop. The student will be able to diagnose faults on suspension and steering systems. The student will be able to successfully perform tire, suspension, steering and alignment service. COURSE CONTENT (Lecture): Auto shop safety and best practices Suspension and steering system component identification, research pertinent service information Suspension system diagnosis and repair Manual and Power steering system operation, diagnosis and repair Wheel bearing diagnosis and replacement Airbag , stability control, tire pressure monitor and electronic power steering system operation and safety practices COURSE CONTENT (Lab): Auto shop safety and best practices Suspension and steering system component identification, research pertinent service information Suspension system diagnosis and repair Manual and Power steering system operation, diagnosis and repair Wheel bearing diagnosis and replacement Airbag, stability control, tire pressure monitor and electronic power steering system operation and safety practices METHODS OF INSTRUCTION: Shop Work Lecture Discussion Demonstrations On-line training (On-line safety and pollution training modules and exams) INSTRUCTIONAL MATERIALS: NOTE: To be UC/CSU transferable, the text must be dated within the last 7 years OR a statement of justification for a text beyond the last 7 years must be included. Textbook Title: Author: Publisher: Edition/Date: Textbook Reading Level: Justification Statement: Automotive Technology: Principles, Diagnosis, and Service James D. Halderman Pearson Prentice Hall Fourth Edition / 2012 10.2 (For textbook beyond 7 years) Lab Manual Title (if applicable): Author: Publisher: Edition/Date: OUTSIDE OF CLASS WEEKLY ASSIGNMENTS: Title 5, section 55002.5 establishes that a range of 48 -54hours of lecture, study, or lab work is required for one unit of credit. For each hour of lecture, students should be required to spend an additional two hours of study outside of class to earn one unit of credit. State mandates that sample assignments must be included on the Course Outline of Record. Outside of Class Weekly Assignments Hours per week Weekly Reading Assignments (Include detailed assignment below, if applicable) 2 Read chapter 112 on Suspension System Components and Operation. Weekly Writing Assignments (Include detailed assignment below, if applicable) Answer the review and chapter quiz questions at the end of chapter 112. Weekly Math Problems (Include detailed assignment below, if applicable) Lab or Software Application Assignments (Include detailed assignment below, if applicable) 2 Other Performance Assignments (Include detailed assignment below, if applicable) 2 Complete the online safety and pollution (www.sp2.org) modules and pass final tests with 80% or better. STUDENT EVALUATION: (Show percentage breakdown for evaluation instruments) Course must require use of critical thinking, college-level concepts & college-level learning skills. For degree credit, course requires essay writing unless that requirement would be inappropriate to the course objectives. If writing is inappropriate, there must be a requirement of problem-solving or skills demonstration. % Essay (If essay is not included in assessment, explain below.) % % % 50 50 % % % Computation or Non-computational Problem Solving Skills Skills Demonstration Objective Examinations Other (describe) Shop Work, Participation and Professionalism Tests and Quizzes, Classroom Work and Homework GRADING POLICY: (Choose LG, P/NP, or SC) Letter Grade 90% - 100% = A 80% - 89% = B 70% - 79% = C 60% - 69% = D Below 60% = F Pass / No Pass 70% and above = Pass Below 70% = No Pass Prepared by: Lucile Beatty Date: 2/17/14 Revised form 01/14 x Student Choice 90% - 100% = A 80% - 89% = B 70% - 79% = C 60% - 69% = D Below 60% = F or 70% and above = Pass Below 70% = No Pass