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The Teacher In-Service Program in Malaysia 10 September 2006 Putrajaya, Malaysia Moshe Kam Educational Activities.

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Presentation on theme: "The Teacher In-Service Program in Malaysia 10 September 2006 Putrajaya, Malaysia Moshe Kam Educational Activities."— Presentation transcript:

1 The Teacher In-Service Program in Malaysia 10 September 2006 Putrajaya, Malaysia Moshe Kam Educational Activities

2 A Few Words about IEEE l IEEE is the largest professional engineering association in the world l 367,000 members in 150 countries l A 501(c)3 organization in incorporated in New York l Originally concentrating on power engineering and communications IEEE at present spans technical interests across the spectrum of technology l From nanotechnology to oceanic engineering l In many respects IEEE has become the steward of Engineering

3 It all starts in Philadelphia… AIEE In 1884 the Franklin Institute organized the International Electrical Exhibition in Philadelphia The Operator, 15 April 1884 The…exhibition would be attended by foreign electrical savants, engineers, and manufacturers...it would be a lasting disgrace to American electricians if no American electrical national society was in existence to receive them with the honors due them from their co-laborers in the United States." Thomas Edison, Elihu Thomson, Edwin Houston, and Edward Weston AIEEs First Technical Meeting 7-8 October 1884, the Franklin Institute

4 Early Presidents Alexander G. BellElihu ThomsonCharles SteinmetzFrank Sprague

5 A few more recent Presidents Leah Jamieson Joseph Bordogna Michael Lightner Wallace Read

6 AIEE IRE l Established 1884 l An American Organization l Representing the establishment l Rooted in Power Engineering l First computers working group l Now the Computer Society l Established 1908 l An international Organization l Open to students, young professionals l Quick to adopt advances in radar, radio, TV, electronics, computers l Proceedings of the Institute of Radio Engineers (January 1913) 1963: Merger of AIEE and IRE to create IEEE

7 What is IEEE? l A membership organization l A major creator and guardian of technical IP l A mechanism to bring people of common technical interests together l both geographically and disciplinarily l Volunteerism as a core value of IEEE l A guardian of the future of Engineering l An implementer of technology-related public Imperatives

8 What does IEEE do? l Publishes literature in engineering, technology and computing l Organizes conferences l Develops standards l Gets engineers and technologists from different locales together l Organizes professional activities among engineering students l Educates the public about Engineering

9 What does IEEE do? l Publishes literature in engineering, technology and computing l Organizes conferences l Develops standards l Gets engineers and technologists from different locales together l Organizes professional activities among engineering students l Educates the public about Engineering

10 Why is IEEE interested in pre- university engineering education l Because it is in our stated and un-stated mission l Because in many IEEE Sections there is marked decline in the interest of young people in Engineering l This is bad for the future of these communities and would have a negative impact on their standard of living l Because we do not believe the problem is going to be tackled effectively without us l Industry does not appear to be able to address the problem directly l Governments do not appear sufficiently concerned (yet) l Other engineering associations look up to us

11 What is the Problem? l Flat or declining engineering enrollments in most developed nations l Coupled with disappointing performance of youth in Mathematics l E.g., free fall in Scandinavia l Insufficient number of engineers and engineering educational programs in most developing countries l Asia is far behind Europe and the US in number of engineers per capita

12 What is the Problem? l Women & minority students conspicuously under-represented l Public perception of engineers/ engineering/ technology is largely misinformed l Resulting in early decisions that block the path of children to Engineering

13 Percentage of Science Degrees Awarded Science degrees include life sciences, physical sciences, mathematics, statistics, computer sciences, engineering, manufacturing, and building Source: Organization of Economic Cooperation and Development

14 BS Degrees Awarded (US) Source: U.S. Department of Education, National Center for Education Statistics

15 Higher Education in Malaysia as seen by IEEE-EAB Observations Action items Moshe Kam Main sources: StudyMalaysia.com Malaysian Educational Statistics 2005, MOE Government of Malaysia: Education and Social Characteristics of the Population, Population and Housing Census 2000

16 The Malaysian Engineering Education System at a Glance 13 years of formal schooling 6 years of primary school 5 years of secondary school (SPM – equivalent to GCE O level) 2 years of pre-university (STPM – equivalent to GCE A level) 4 Years Tertiary Education leading to BEng (Hons) degree Source: presentation by Dr. H T Chuah, EAB workshop Bangkok, 2004

17 The Malaysian Engineering Education System at a Glance 6 years 5 years 2 years PRIMARY PRE- UNIVERSITY SECONDARY AGE (YEARS) years University Source: presentation by Dr. H T Chuah, EAB workshop Bangkok, 2004

18 Basic Numbers l 17 public universities l Including 6 with Technology or Engineering in the title l 11 private universities l 11 private university colleges l 5 foreign university branches l 20 polytechnic institutions (technician level) l More than 500 of colleges l Many do not offer degrees but transfer coursework to degree granting universities (overseas) l Models of Twinning, Articulation, and Credit Transfer with foreign universities Source: Malaysian Educational Statistics 2005, MOE

19 Basic Numbers l University-level students: l Government and government-assisted university-level institutions: 312,165 l Private universities: 89,664 l Development of engineering programs is relatively recent: l Started in the 1970s l Universities that offer degrees in engineering l 1994 – six (6) l 1999 – ten (10) l 2006 – approximately 20 Source: Malaysian Educational Statistics 2005, MOE

20 Footprint in IEEE Xplore: ECE/CS Research Author affiliation Number of IEEE and IET articles per million people Number of IEEE and IET articles Singapore Australia Japan New Zealand Korea Malaysia Thailand342148

21 Footprint in IEEE Xplore: Engineering Education Engineering education and… Number of IEEE and IET articles Australia238 Japan108 Singapore53 New Zealand27 Korea26 Malaysia24 Thailand10

22 Engineering education and… Number of IEEE and IET articles France91 Mexico79 Italy76 Turkey43 Malaysia24 Greece22 Hungary20 Footprint in IEEE Xplore: Engineering Education

23 Basic observations l A growing but still small higher education system l Compared to population size l A growing but still small infrastructure for engineering and technology education l A growing but still small fraction of the 20+ population benefits from higher education (post-secondary, college, university) l 8.9% in 1991; 16% in 2000 l The role of foreign universities in educating Malaysian engineers and technologists is more important than in many other developing countries

24 What do Malaysians study? (in the higher education system) l First: social science, business and law (35.4%) l Second: engineering, construction and skill training (22.6%) l Third: education (15.4%)

25 Comment on In Service Training for pre-university teachers l Malaysia has a formal in-service training program for teachers run by the Ministry of Education l A 14-week program l Open to education service officers meeting minimum qualifications l By application l Will it be possible to integrate the IEEE TISP program in this official program? Source: Ministry of Education Malaysia

26 References l A.A. Abang Abdullah et al.: Engineering education in rapidly industrialising Malaysia, Engineering Science and Education Journal, Volume 3, Issue 6, pp (Dec. 1994) l James D. Stevens: Malaysian Models for Engineering Education in the United States, J. Profl. Issues in Engrg. Educ. and Pract., Volume 125, Issue 1, pp (January 1999) l Education Guide Malaysia, 10 th edition (Petaling Jaya: Challenger Concept) l H.T. Chuah Engineering Programme Accreditation System of Malaysia, IEEE EAB Accreditation Workshop, Bangkok, Thailand (2004): on-line: a-Chuah.ppt l l l l (Malay only) l (English version)

27 Pre-university activities in IEEE

28 Who inside IEEE is active in this area? l The IEEE Educational Activities Board (EAB) l The IEEE Regional Activities Board (RAB) l IEEE-USA

29 IEEEs Pre-University Initiative l New Initiative l Launching Our Childrens Path to Engineering l Objectives l Increase the propensity of young people worldwide to select Engineering as a career path l Build a sustained public awareness program, led by IEEE, with broad support of corporations and professional associations

30 Objective 1: Engineering in the Pre- University Classroom l Institutionalization of IEEE Teacher In-Service Program l IEEE Section engineers develop and present technology-oriented projects to local pre-university educators l Emphasis on volunteer-teacher interaction as opposed to volunteer-student interaction l Ideally: a sustained program involving several thousand teachers every year

31 Objective 2: Engineering Associations, Unite! l Center for Pre-University Engineering Education l Ideally, the resource of choice for pre- university education cooperation with Engineering Associations l Ideally, a multi-association organization l With partners such as ASCE, ASME, IEE, SEE l It is about ENGINEERING, not Electrical Engineering

32 Objective 3: Strong On-line Presence l New on-line portals for students, teachers, school counselors, and parents l Educational and entertaining l Focused on the audience l From lesson plans for teachers to games for students l Ideally, the premier on-line resource on engineering for pre-university students, school counselors, teachers and parents

33 On Line Portal TryEngineering.org Strong On-line presence

34 The Web provides us with high potential for reachability l A successful portal can become a major resource for students, parents, school counselors, and teachers l But success is difficult in an ever-crowded medium l Effort needs to be coupled with more modern tools l Instant messaging, podcasts

35 What information is needed on line? l We met with school counselors and Engineering Associations l Need on line tools for identifying formal and informal engineering education opportunities l Engineering associations that participated in our discussions l ACM, AIChE, AIAA, ASME, ASCE, IEE, JETS, SAE, SEE, Sloan Career Cornerstone Center

36 What information is available on line? l We conducted a comprehensive review of engineering education resources l By EAB and consultants l Conclusions: l Many Engineering Resources are actually focusing on Science and Mathematics l Resources for teachers are largely inadequate l Wrong message is sent about the nature of engineering and the life of engineers

37 From Collegeboard.com: Law It helps to be…Are you ready to… fascinated by the relationship between law and society engage in intense discussion of thorny legal problems ?

38 From Collegeboard.com: Broadcast Journalism It helps to be…Are you ready to… sharp of mind and quick of tongue learn how to find and interview sources?

39 From Collegeboard.com: Civil Engineering It helps to be…Are you ready to… A problem-solver whos creative, curious, logical, and a fan of math. Spend hours and hours working on problem sets and design projects?

40 From Collegeboard.com: Civil Engineering It helps to be…Are you ready to… A problem-solver whos creative, curious, logical, and a fan of math. Spend hours and hours working on problem sets and design projects?

41 From Collegeboard.com: Civil Engineering It helps to be…Are you ready to… A problem-solver whos creative, curious, logical, and a fan of math. Spend hours and hours working on problem sets and design projects?

42 From Collegeboard.com: Mechanical Engineering It helps to be…Are you ready to… A fan of science and math, a creative problem solver, and someone who likes to take things apart to find out how they work. Rely on your math skills? Master difficult scientific concepts? Take on a heavy course load? Spend five years as an undergrad…

43 From Collegeboard.com: Electrical Engineering It helps to be…Are you ready to… A fan of science and math whos curious about the way things work Spend hours building detailed, complicated systems Try, try, and try again when at first a project doesnt succeed

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45 Good existing model l Tryscience.org l Your gateway to experience the excitement of contemporary science and technology through on and offline interactivity with science and technology centers worldwide. l Science is exciting, and it's for everyone! l Partnership between l IBM l the New York Hall of Science l the Association of Science-Technology Centers l Science centers worldwide

46 Next step – TryEngineering.org l Companion site to tryscience.org l Comprehensive l Ultimate Audience: young people ages 8-18 l Designed to convey excitement about engineering and design l Can-do attitude l Hands-on experience l Positive image of the engineering process and engineering l Discover the creative engineer in you

47 TryEngineering.org A portal for students, parents, school counselors and teachers School search By location, program, environment Day in the life of an engineer Hands-on and virtual projects Lesson plans for teaching engineering design Ask an engineer: Brought to you by SAE Ask an undergraduate student: Brought to you by JETS GamesSummer camps, internship opportunities

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50 Current status l TryEngineering.org is on line l Please visit and provide us with feedback l We are having a quiet launch between June and early September l Some statistics (as of 23 August 2006) l 6248= average # of visitors per month l 40 minutes= average time a visitor spends on the site l 41,404= average # of page hits per month l 1761= average number of university searches per month l 120= questions submitted to Ask an Expert l 131= number of visitors from Malaysia (.64%) l Advertising campaign in mid-September

51 The Teacher in Service Program Engineering in the classroom

52 Basics l IEEE Section engineers develop and present technology-oriented projects to local pre- university educators l Started at the Florida West Coast Section in 2001 l Lesson plans in English and Spanish for teachers and engineers l Lesson plans matched to educational standards

53 Basics (2) l IEEE Section engineers develop and present technology-oriented projects to local pre- university educators l Started at the Florida West Coast Section in 2001 l Lesson plans in English and Spanish for teachers and engineers l Lesson plans matched to educational standards

54 Rotational Equilibrium: A Question of Balance Demonstrate the concept of rotational equilibrium, by building and testing a Mobile

55 Build working models with household items

56 Design and Build a Better Candy Bag Lesson Focus l Demonstrate how product design differences can affect the success of a final product l in this case a bag for holding candy. l Students work in pairs to evaluate, design, and build a better candy bag

57 What have we done in 2005? l Pilot study in Region 3 (Southeastern US) l 65 participants, from 23 Sections, in Atlanta, GA l Whole day workshop on lessons, association with educational standards and working with schools l Plus half a day of a simulated TISP session l Feedback: multiple groups organizing training sessions in Southeastern US and Jamaica

58 What are we doing in 2006? l A Region 3 refresher l Expand to l Region 1 (Boston, MA)–held in March l Region 4 (Indianapolis, IN)held in June l Region 8 (South Africa)– held in August l Region 10 (Malaysia)

59 What will we do in 2007? l Expand to l Region 2 (Baltimore) l Region 5 (Dallas) l Region 9 (Peru and Argentina) l Region 8 (Slovakia?)

60 What do we want to achieve in Malaysia? l Establish TISP as a permanent program run by the IEEE Malaysia Section l Reach 400 pre-university teachers in one year l From across the country l 800 teachers in the next two years l Investigate the incorporation of TISP in the formal program of the Malaysias Ministry of Education In Service Program l Make TryEngineering a popular resource among teachers, school counselors and students in the primary through university level communities in Malaysia l Augment the TryEngineering University Search with school information in Malaysia l Create a page on university accreditation in Malaysia l Ask to add links on Ministry of Education website links page and on

61 Questions and comments

62 TISP Background and Scope

63 Workshop Goals l Empower Section champions to develop or enhance collaborations with their local pre- university community to promote applied inquiry-based learning. l Enhance the level of technological literacy of pre-university educators. l Encourage pre-university students to pursue technical careers, including engineering. l Increase the general level of technological literacy of pre-university students for many years.

64 Short-Term Benefits l Participating teachers will acquire additional knowledge and materials necessary to enhance their science, math and technology curricula l Participating teachers will be able to add practical, applicable content to their curricula l Engineers and educators will be able to meet and learn about each other l Participating teachers will have a greater understanding of technical careers such as engineering, which they can impart to their students

65 Long-Term Benefits l The overall level of technological literacy of educators and their students will be positively impacted for many years l There will be the potential for future enhancements in school curricula l Engineers and educators will be given opportunities to meet and develop future collaborative relationships l Minority and female students will be exposed to engineering and other technical professions

66 Just What Is In-Service Training? l Pre-service education - Training teachers receive before beginning their teaching careers. l In-Service education - Training teachers receive after entering the classroom. l In Florida, teachers must accumulate 120 in-service points every five years to renew their teaching certificates. l An in-service point is similar to the professional development hours (PDHs) many states require for renewing PE licenses.

67 Why Participate in a Teacher In-Service Program? Enhance the level of technological literacy of: l Teachers l Students l The local school community

68 Why Participate in a Teacher In-Service Program? l Enhance the standing of IEEE and the engineering profession in the eyes of pre-university educators and students. l Promote engineering as a career choice. l Encourage IEEE member participation.

69 Have fun. Why Participate in a Teacher In-Service Program?

70 TISP Presentations by Section l Chattanooga, TN l Miami, FL l Florida West Coast l Santa Clara, CA l Philadelphia, PA l North Jersey, NJ l Republic of South Africa l St. Louis, MO l Central Indiana l Jamaica l Atlanta, GA l Richmond, VA l Central North Carolina

71 Metrics To Date l Forty presentations to date l More than 890 pre-university educators have participated l Science, technology and mathematics educators l These educators represent 90,000+ students

72 Metrics To Date Contd Over 90% of the respondents agreed: l They would use the concepts presented in their instruction l Doing so would enhance the level of technological literacy of their students

73 Re-useable materials and hardware. Counting the Cost

74 Counting the Cost Expendables

75 Counting the Cost l Reproduction costs l Often donated in kind. l Refreshments.

76 How to Begin? Two pronged approach: l Build relationships with school districts. l Build interest in members.

77 Mobilising volunteers

78 Recruiting Volunteers l Articles placed in Section newsletters l Announcements l At chapter meetings l At section executive committee meetings l Informal contacts with members l Members can choose to be presenters or coaches l GOLD & Life members are good candidates

79 How do I get involved * the mindset l Be proud of what your profession does l Be aware of the importance of engineering for the development of our country and make it known l Get involved in educational issues l your childrens school l the IEEE - your professional society l your HR department l Convince your employer and others of the importance to help education departments

80 My experience - promoting my profession l Employer l we need engineering students l IEEE, conferences etc l met similar minded people l Gateway Discovery Centre l having a vision l fundraising l practical implementation l Industry l Energy efficiency - CFLs

81 Contact with educationalists l Join forces with your education department l listen to them and heed their advice l Keep in contact with fellow engineers who share your vision l Always evaluate what you are doing and ask for feedback

82 Qualities Needed l Tactful communicator. Willing to play the role of classroom assistant. l New methods of teaching - with less telling and more doing. l Enjoy immediate gratification.

83 Choose Topics l Tie to national education expectations. l Choose topics of interest to section members. l Emphasize hands-on activities. l Think low cost l While working with school departments simply ask teachers, curriculum supervisors, curriculum specialists, etc., what topics are needed.

84 l Rocket Cars and Newtons Laws l Build Working Models With Household Items l The Orbit of Planet Gamma l Learn to Program and Test Robots For Classroom Use l Everything You Wanted To Know About Electric Motors But Were Afraid To Ask, Sample Teacher In-service Presentation Topics

85 Sample Teacher In-service Presentation Topics Contd l How Do We Communicate Using Radio Waves l Get Connected With Ohms Law l Effective Lighting l Build Your Own Robot Arm l Simple Machines l Light Waves and Spectroscopes

86 Plan Times and Places l Special Events l USF Engineering EXPO, all day, February, prelude to Engineers Week l Teacher Conferences, e.g. technology, mathematics and science teacher conventions by province or nationally l National teacher organizations that happen to meet nearby l Places l College Campuses, school lab

87 Follow-up Activities/Metrics l Count the number of educators who participated in your teacher in-service program l Be sure that teachers complete the 12 item questionnaire l EAD will tabulate the results l Follow-up with teachers to determine the level of implementation of the concepts and activities l Consider a sign in sheet to include an address l Consider sending a follow-up postcard to attendees

88 Lessons Learned l Have telephone or cell phone numbers for at least two contacts at the school. l If possible, visit the presentation location several days before the session. l Use a cart for moving materials from volunteers cars to meeting rooms. l If your presentation requires electric power, bring several extension cords and multi-outlet power strips. l Exchange cellular telephone or pager numbers among all the section member volunteers. l Provide each section member volunteer with good directions to the meeting location.

89 Teacher In-service Presentations

90 Design and Build Your Own Robot Arm Putrajaya, Malaysia Nico Beute, South Africa Section Douglas Gorham, Educational Activities Yvonne Pelham, Educational Activities September 2006

91 Principles & Standards for School Mathematics l Geometry: l Use visualization, spatial reasoning, and geometric modeling to solve problems l Analyze characteristics and properties of two- and three- dimensional geometric shapes and develop mathematical arguments about geometric relationships l Problem Solving: l Recognize and apply geometric ideas in areas outside of the mathematics classroom l Apply and adapt a variety of appropriate strategies l Communication: l Communicate mathematical thinking coherently and clearly to peers, teachers, and others

92 National Science Education Standards Standard E: Science and Technology l Abilities to distinguish between natural objects and objects made by humans l Abilities of technological design l Understandings about science and technology l Communicate the process of technological design l Interactions of energy and matter l Motion and force

93 Standards for Technological Literacy Students will develop an understanding of… l Standard 7. the influence of technology on history. l Standard 8. the attributes of design. l Standard 9. engineering design. l Standard 10. the role of troubleshooting, research and development, invention and innovation, and experimentation in problem solving. Students will develop … l Standard 11. the abilities to apply the design process. l Standard 19. an understanding of and be able to select and use manufacturing technologies.

94 Outline and Procedures l Divide into teams of 2 l Brainstorm and create a sketch of your design l Build a model of your design with given materials l Test your model l Discuss and agree upon a redesign, if needed l Rebuild your robot arm l Retest your model l Answer reflection questions as a team

95 Reflection l What was one thing you liked about your design? l Did you use all of the materials provided? Why, or why not? l Are there algebraic principles that can be applied to this activity? l What is one thing you would change about your design based on your experience? l How might you incorporate this activity into your classroom instruction?


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