Course Syllabus

Course Syllabus
2145-392 Aerospace Engineering Laboratory II
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7.
Course No.:
Course Credits:
Course Title:
Faculty:
Semester:
Year:
Lecturers:
Time:
2145-392
2 credits (1-3-2)
Aerospace Engineering Laboratory II (AERO ENG LAB II)
Engineering (ISE)
Second
Academic Year 2013 (Jan – May, 2014)
Wednesday: Lecture: 8-9 am ,
Laboratory: 9 am -12 pm
******************** Presentation Room: ME/206 (Second Floor, ME Building) ********************
Lab No.
1
2
3
4
5
Lab
Dimensional Analysis and Model Testing: Airfoil
Gas Turbine
Vibration of Cantilever Beam
Structure of Wing
DAQ and LabView
Lecturers
Lab Location
ME/206
First Floor, ME 2
ME/206
ME/206
ME/206
Instructor
ABJ
SCP
NAV
CRW
TPP
ABJ
Assc. Prof. Asi Bunyajitradulya
รศ.ดร.อศิ บุญจิตราดุลย์
SCP
Prof. Somsak Chaiyapinunt
NAV
Asst. Prof. Nopdanai Ajavakom
ศ.ดร.สมศักดิ ์ ไชยะภินนั ท์
ผศ.ดร.นภดนัย อาชวาคม
CRW
Chanat Ratanasumawong
ผศ.ดร.ชนัตต์ รัตนสุมาวงศ์
TPP
Lect. Tawan Paphapote
อ. ตะวัน ปภาพจน์
TA
ผูช้ ่วยสอน
1. Settasit Chaikasetsin
1. เศรษฐสิทธิ์ ชัยเกษตรสิน
Laboratory Facilitators
ครู ปฏิบตั กิ าร
1. นางสาว วิไลพร วิบลู ย์เลิศ
2. นาย ปั ญญาวุธ ทิพวันต์
3. นาย สุบิน ขันตี
Staffs
พนักงานสนับสนุน
8.
Prerequisite:
None
Corequisite:
None
9. Course Status:
Required
10. Degree Program:
ISE: Bachelor of Engineering in Aerospace Engineering
11. Lecture/Laboratory Hours:
Lec: Wed 8-9 am,
Lab: Wed 9am-12pm
12. Course Description:
Laboratory experiment in aerodynamics, structure, propulsion, performance and control.
Lab Staff
Vilaiporn
Subin
Punyawut
xxx
xxx
13. Course Outline
13.1. Course Objectives
1. Definition/Objective: Ability to define and state a (reasonably) clear objective of an experiment.
2. DRD: Ability to construct a suitable data reduction diagram (DRD) for a given experiment.
3. Instruments: Ability to choose an appropriate instrument for a task according to some basic instrument
parameters.
4. Measurement and Uncertainty: Ability to perform uncertainty analysis at an elementary level.
5. Results and Conclusions: Ability to extract/logically draw and state experimental results and
conclusions.
13.2. Evaluation and Grading
Report
40 points
(Lab instructor)
Presentation
40 points
(Lab instructors)
Oral Exam
20 points
(Oral examination committee)
13.3. Course Schedule
Week
1
2-4
Contents
Orientation
2-3
4
5-7
5-6
7
8-10
11-13
Presentation + Individual Report
Laboratory 2
Presentation + Group Report
8-9
Laboratory 3
10
Presentation + Individual Report
11-12 Laboratory 4
13
14
Laboratory 1
Presentation + Group Report
Oral Examination
Laboratory Schedule for Each Group
Sec
Lab 1
Lab 2
Lab 3
Lab 4
1
1
5
4
3
2
2
1
5
4
3
3
2
1
5
4
4
3
2
1
5
5
4
3
2
14. Textbooks:
Required Textbook:
14.1. 2145-391 Some Aspects in Experimentation. (Continued from 2145-391 Aerospace Engineering Laboratory
I)
14.2. 2145-392 Laboratory Instruction.
14.3. Figliola, R. S., and Beasley, D. E., 2000, Theory and design for mechanical measurements, 3rd Edition,
Wiley, New York.
Course Web:
http://fmeabj.lecturer.eng.chula.ac.th/abj-index.htm
Recommended Textbooks and References:
14.4. Wheeler, A. J. and Ganji, A. R., 2004, “Introduction to engineering experimentation,” Pearson Prentice Hall,
New Jersey.
14.5. Dunn, P. F., 2005, “Measurement and data analysis for engineering and science,” McGraw-Hill, New York.
14.6. Holman, J. P., 2001, Experimental methods for engineers, 7th Edition, McGraw-Hill, New York.
14.7. Coleman, H. W., Glenn, W., and Steels, Jr., 1998, Experimentation and uncertainty analysis for engineers,
2nd Edition, Wiley, New York.
14.8. Taylor, J. R., 1982, An introduction to error analysis, University Science Books, Oxford University Press.
14.9. Doebelin, E. O., 1989, Measurement systems: application and design, 4th Edition, McGraw-Hill, New York.