Course Title: Aerospace Physics 1

Part B: Course Detail

Teaching Period: Term2 2010

Course Code: ONPS5098

Course Title: Aerospace Physics 1

School: 155T Life & Physical Sciences

Campus: City Campus

Program: C6011 - Advanced Diploma of Engineering (Aerospace)

Course Contact : John Newberry

Course Contact Phone: +61 3 9925 4990

Course Contact Email:john.newberry@rmit.edu.au


Name and Contact Details of All Other Relevant Staff


Ms. Lucia De Simone

lucia.desimone@rmit.edu.au

Nominal Hours: 40

Regardless of the mode of delivery, represent a guide to the relative teaching time and student effort required to successfully achieve a particular competency/module. This may include not only scheduled classes or workplace visits but also the amount of effort required to undertake, evaluate and complete all assessment requirements, including any non-classroom activities.

Pre-requisites and Co-requisites

MATH5156 Mathematics 1

Course Description

The purpose of this course is to provide training in physics which underpins more advanced training required for employment as a para-professional technician.
Areas covered in this course include:
• Units and measurements
• Vectors
• Linear Kinematics
• Newton’s Laws of motion
• Friction
• Linear work
• Energy and power
• Momentum


National Codes, Titles, Elements and Performance Criteria

National Element Code & Title:

VBH155 Aerospace Physics 1


Learning Outcomes


1. Explain concepts and solve problems involving units and measurement.
2. Solve problems involving vectors.
3. Explain concepts and solve problems relating to linear kinematics.
4. Explain concepts and solve problems involving planar kinematics.
5. Explain concepts relating to and solve problems using Newton’s Laws of Motion.
6. Discuss friction and solve problems involving friction.
7. Solve problems involving linear work, energy and power.
8. Solve problems involving momentum.


Details of Learning Activities

The students will participate in face to face lectures, tutorials and laboratory experimentation


Teaching Schedule

 

WeekTopicsActivity
1Units, Significant Figures, Scientific Notation, Errors 
2Errors and uncertainty 1 
3Errors and uncertainty 2 
4 Expt 1: Measurement and uncertainty - in class practicalExperiment 1 due in class (10%)
5Vectors: Addition and subtraction 
6Kinematics 
7Projectile motion 
8Expt 2: Projectile motionExperiment 2:  Projectile motion
 Mid-semester break 
9Revision  
10Mid-semester test

Experiment 2 due (10%)
Test (30%)

11Newton’s Laws  
12Inclined planes and friction  
13Expt 3: Friction Experiment 3:  Friction
14Gravity  
15Work, Energy and PowerExperiment 3 due (10%)
16Momentum, Impulse and Collisions  
17Revision  
18ExaminationFinal Exam (40%)


Learning Resources

Prescribed Texts

The students will be provided with printed notes and exercises.


References


Other Resources

Students will be expected to bring a scientific calculator to every class.

For further study students may consult the following texts:

D. Giancoli, Physics, Principles with Applications

R., A. Serway,Physics for Scientists and Engineers

P. E. Tippens, Basic Technical Physics

Ivanoff Val, Engineering Physics


Overview of Assessment

Assessment consists of:
• Three practicals worth 30%
• Test worth 30%
• Exam worth 40%.


Assessment Tasks

The test and exam will consist of multiple choice and short answer questions which are based on theory and problem solving.

The practicals are:

1.  Errors in measurement

2. Projectile Motion

3.  Friction


Assessment Matrix

Course Overview: Access Course Overview