Learning Outcomes:
Describe the basic principles of engineering statics. |
Construct free-body diagrams and to calculate the reactions necessary to ensure static equilibrium. |
Apply and calculate internal forces to solve statics equilibrium problems involving friction. |
Upon completion of this course students should be able to:
1.Construct free-body diagrams and to calculate the reactions necessary to ensure static equilibrium.
2.Understand the analysis of distributed loads.
3.Calculate centroids and moments of inertia and ability to solve statics equilibrium problems involving friction.
This course devoted into several parts which includes:
§Introduction, function and structure of chassis system
Basic construction and operation of steering, suspension and braking system.Upon completion of this course students should be able to:
i.Understand the principle and function of components related to basic chassis system.
- Describe the chassis system operations and apply appropriate tools to demonstrate the chassis system.
- Demonstrate the right skill for troubleshooting.
This course developed an understanding of the principles of statics and dynamics, and the ability to analyze problems in a systematic and logical manner, including the ability to draw free-body diagrams. Ability to analyze the statics of trusses, frames and machine and the dynamics of particles, systems of particles and rigid bodies.
COURSE LEARNING OUTCOMES:
Upon completion of this course students should be able to:
CLO1 |
Illustrate the free-body diagrams for rigid bodies and to calculate the reactions necessary to ensure static equilibrium. |
CLO2 |
Solve the motion linear, curvilinear motion and friction scenarios in particles and rigid bodies. |
CLO3 |
Solve the kinematics and kinetics scenarios of particles and rigid bodies. |