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Aerospace STEM+M Workforce Connection - GLOBAL CHANGEEducation Committee; Dr. Stephanie Wright, Chair; Dr. Barry Butler, Member; Dr. Bobby McMasters, Member
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Aerospace STEM+M
Workforce Connection
GLOBAL CHANGEEducation Committee
Dr. Stephanie Wright, ChairDr. Barry Butler, Member
Dr. Bobby McMasters, Member
www.aerostates.org
AchieveYour Dreams
Aerospace and the Future Workforce
• Importance of a K – College STEM Education pipeline in each State.
• Focus on STEM plus the added component of Manufacturing in preparing students for the workforce.
• Provide perspective on the impact of Aerospace and Aviation business on the National economy.
What is ASA?• The Aerospace States Association (ASA) is a bi-
partisan organization of Lieutenant Governors and other top-ranking State leaders.
• ASA represents States’ interests in Federal
Aerospace and Aviation policy development.
• ASA advocates on behalf of States for:– workforce training. – economic development in Aerospace and Aviation. – excellence in Science, Technology, Engineering and
Mathematics (STEM) education in every State. – Keeping States competitive in a global marketplace.– R&D funding.
AGENDA
1. The original STEM Education challenge.2. Condition of STEM Education in the U.S.
school systems, K – College.3. The original STEM Education solution.4. Why add Manufacturing (+M)?5. Status of the U.S. Aviation & Aerospace
industries.6. Outlook & Strategies for 2012 and beyond.
The Original Problem• On 17 November 1944, President
Franklin D. Roosevelt wrote a letter to Vannevar Bush, the head of the U.S. Office for Scientific Research and Development. In that letter, President Roosevelt posed the question:
“Can an effective program be proposed for discovering and developing scientific talent in American youth to show that the continuing future of scientific research in the country may be assured on a level comparable to what has been done during the war?”
Base: All Qualified Respondents (College Students: n=500, Parents of Child in Grades K-12: n=854)Q940/Q1060: How strongly do you agree or disagree with each of the following statements?Q1050: How willing would you be to spend extra money to help your child(ren) be successful in their math and science classes?
% agree among students and parents
STEM College Students
Parents of K–12 Students
The State of STEM Education in the U.S.
The First SolutionIn Science-The Endless Frontier (1945) Vannevar Bush offered his answer. Bush called for the renewal of our scientific talent through the U.S. education system. He wrote:
“The responsibility for the creation of new scientific knowledge rests on that small body of men and women who understand the fundamental laws of nature and are skilled in the techniques of scientific research. While there will always be the rare individual who will rise to the top without benefit of formal education and training, he is the exception and even he might make a more notable contribution if he had the benefit of the best education we have to offer.”
What is STEM+M?
• Today, STEM education alone may not be sufficient. To be effective, ultimately physical goods need to be made and the most significant require Manufacturing -- the +M.
Education & IndustrySTEM+M Connection
• Linking mental skills and capabilities that STEM Education provides, with the technologies and processes for manu-facturing products of value, realizes the promise of strengthened STEM+M Education in the United States.
The Need for STEM+M
• Adding STEM+M = Adding Jobs.
Aviation & AerospaceIndustry?
• Our ability to design, engineer, and build world class Aerospace products and provide Aviation services, while continually innovating, will be an important determinate of the United States future Economic and National security.
Aviation & AerospaceIndustry?
• The Aviation & Aerospace industry is one of the last in which the United States has a current advantage and is also growing globally.
Investment in Human CapitalU.S. versus Top Performers
Percentage of Adults with a Tertiary Degree, by Age
0%
10%
20%
30%
40%
50%
60%
United States Canada Korea Japan
25 to 34
35 to 44
45 to 54
55 to 64
Source: OECD, Education at a Glance 2010.
Small to Medium Manufacturing is Key
• National STEM+M Workforce Development opportunities exist in the Aviation & Aerospace industry.
15U.S. Aerospace Industrial Production Index 2000-2009
Source: U.S. Department of Commerce, Bureau of the Census and ITA; U.S. Department of Labor, Bureau of Labor Statistics; Federal Reserve Board.
26%
31%• Defense spending allowed production to increase.
• Increasing demand for civil aircraft is keeping production going – driven by emerging markets.
16U.S. Aerospace Manufacturing Employment 2000-2009
Source: U.S. Department of Commerce, Bureau of the Census and ITA; U.S. Department of Labor, Bureau of Labor Statistics; Federal Reserve Board.
-5%
18%
• Overall employment has dropped.
• Production workers have increased since the turn of Century.
• Aerospace Jobs are growing.
17U.S. Aerospace Sales 2000-2010
Source: Aerospace Industries Association
20002001
20022003
20042005
20062007
20082009
2010(P)0
25
50
75
100
125
150
175
200
225
Aerospace Industry Sales by Product GroupMilitary Aircraft Civil Aircraft Space Related Products
Billi
ons
of D
olla
rs
• Reduction in civil sales and growth in defense sales after 9/11.
• Overall sales continue to grow.
Outlook & Strategies for
2012 & Beyond
Aerospace STEM+M Workforce Connection
Industry Outlook for2012 & Beyond
• Global economic recovery is uneven – some countries recovering faster than others.
• Aerospace industry is growing at a rate faster than GDP (2%); Asia Pacific region is fastest.
• Aerospace products will see significant growth over the next 30 years.
• Aerospace forecasts $3.2 trillion commercial aircraft production; not including $40 Billion in U.S. Defense spending.
Outlook for 2012& Beyond - Parents
• While most parents of K–12 students (93%) believe that STEM education should be a priority in the U.S., only half (49%) agree that it actually is a top priority for this country.
Outlook for 2012& Beyond - Students
• Importance of K–12 Education:– For many, the decision to study STEM starts
before college.
Outlook for 2012& Beyond – Students
• STEM+M, A Manufacturing Application:– ASA, with Dr. Ralph Coppola’s leadership,
sponsors the Real World Design Challenge (http://www.realworlddesignchallenge.org/). It aligns secondary education with 21st-century workforce needs, and strengthens professional development for teachers by providing software, training, and support by mentors from national laboratories to teams of High School students competing to become State Champions.
Outlook for 2012& Beyond – Students
– The Real World Design Challenge (RWDC) is an annual competition that provides High School students, grades 9-12, the opportunity to work on real world engineering challenges in a team environment. Each year, student teams are asked to address a challenge that confronts our nation's leading industries.
Real World Design Challenge is one of the Largest and Fastest Growing STEM Programs in the Country & the World’s Largest Aviation Education Program
The Real World Design Challenge FREE annual competition that provides students with the opportunity to apply the lessons of the classroom to the technical problems currently faced in the engineering field.
• Real Problems• Real Tools• Real Roles• Real Contributions
I N D U S T R Y & G O V E R N E M E N T P R O F E S S I O N A L S P O N S O R S H I P S
FY09 FY10 FY11 FY12
States 10 26 29 38
Teams trained & signed up
275 367 454 702
Students on teams signed up
1,925 2,569 3,178 4,914
Outlook for 2012& Beyond – Students
– RWDC students utilize professional engineering software to develop their solutions and will also generate presentations that convincingly demonstrate the value of their solutions. The RWDC provides students with opportunities to apply the lessons of the classroom to the technical problems that are being faced in the workplace.
• The Goal is for all States to participate.
Outcomes
• To “cast a wide net” with STEM+M curriculum designed to recruit and retain women and traditionally under-represented minorities.
• Support the National need of growing student capacity enabling significant advances in recruitment and retention of future employees in the Aviation & Aerospace STEM+M disciplines.
Recommendations
• The ASA Education Committee recommends that individual States:
– Explore and encourage STEM + M curriculum
designed to recruit, prepare and retain all youth including women and traditionally under-represented minorities to enter the workforce.
Recommendations (Cont.)
– Focus on encouraging, when appropriate, the use
of STEM + M curriculum as a means of increasing a student’s critical thinking skills and applications in an effort to recruit and retain future employees in the Aviation & Aerospace STEM+M disciplines.
Presentation Credits• Slide #1: Original artwork from Embry-Riddle Aeronautical University - Worldwide Marketing
Department.• Slide #3: Title, logo and text modified from Mr. Charles H. Huettner’s original work, Global
Competitiveness, “THE FUTURE ISN’T WHAT IT USED TO BE.” Presented at the 2nd Annual Center for Aviation and Aerospace Leadership Conference, Orlando, Florida, February, 2011.
• Slide #5: Roosevelt, F.D. (1945). President Roosevelt’s letter. In V. Bush, Science-the endless frontier. A report to the President on a program for postwar scientific research (p 4). Washington, DC: U.S.
• Slide #6: Written permission received from Rachel MacGillivray, Waggener Edstrom Worldwide, on 19 September 2011, to use selected PowerPoint slides from Microsoft Corporation “STEM Perceptions Report” - http://www.microsoft.com/presspass/presskits/citizenship/docs/STEM_Perception_Report.pptx.
• Slide #7: Bush, V. (1945). Science-the endless frontier. A report to the President on a program for postwar scientific research (p 23). Washington, DC: U.S. Government Printing Office. Bloomberg Businessweek, 19-25 July 2010, pp 58-63.
• Slides #8, #9 and #11: Brigadier General Robert E. Mansfield (USAF Retired), 16 September 2011, Embry-Riddle Aeronautical University.
• Slide #10: Building and Retaining the Aerospace Workforce (2009), Inside Aerospace, American Institute of Aeronautics and Astronautics, 12-13 May 2009, Doubletree Hotel Crystal City, Arlington, Virginia. Retrieved from: http://www.aiaa.org/pdf/public/Inside_Aerospace0 9_Report -_and_Recommendations.pdf. Photo provided by the University of Iowa.
• Slide #12: Brigadier General Robert E. Mansfield (USAF Ret.), 16 September 2011, Embry-Riddle Aeronautical University. Photo provided by the University of Iowa.
• Slide #13: Dr. Terry W. Hartle (Senior Vice President, Government Relations and Public Affairs [American Council on Education], February, 2011 presentation to the Council of College and Military Educators, used with permission.
• Slides #15, #16, #17, #18 and #19: Chadwick, W. A., Ellis, B. W. C., Mansfield, R.E., Materna, R. & Fischer, G. J. (2011). Aerospace industry report 2011: facts, figures & outlook for the aviation and aerospace manufacturing industry, Washington, D.C: Aerospace Industries Association and Embry-Riddle Aeronautical University.
• Slides #20 and #21: Written permission received from Rachel MacGillivray, Waggener Edstrom Worldwide, on 19 September 2011, to use selected PowerPoint slides from Microsoft Corporation “STEM Perceptions Report” - http://www.microsoft.com/presspass/presskits/citizenship/docs/STEM_Perception_Report.pptx.
Presentation Credits(Continued)
THE END
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Extras
Additional PowerPoint slides for use as needed.
Base: All Parents of Child in Grades K–12 (n=854)Q1020: Which of the following careers, if any, would you like your child to pursue? Which of the following, if any, do you think your child will want to pursue?
Parent and Child Career HopesReported by parents; top responses shown
Parents who give their child’s school an “A” on its ability to prepare students
for careers in STEM are more likely to say their child wants to pursue a
STEM career (52% vs. 38% give school a “B” or lower).
Base: All College Students (n=500)Q920: How important are each of the following to your success as a student studying in your area or major?
STEM Students: How Important Is Each Factor to Your Success?% Absolutely Essential/Extremely Important
Female students are more likely to cite
“studying hard” as an important success
factor (81% vs. 60% males). Female students are more likely
than males to say “supportive parents” is an important success
factor (50% vs. 37% males).
Base: Parents who agree that STEM preparation should be a top priority for schools (n=774)Q1065: Why do you think preparing students for careers in STEM should be a top priority for schools in the United States. Please select up to three responses.
Parents: Why Should Preparing Students for STEM Careers Be a Top Priority for Schools in the U.S.?
Up to 3 responses selected
Dads are more likely than moms to list this is a reason
(62% vs. 47% moms).
Moms are more likely than dads to list this as a reason
(36% vs. 22% dads).
8.27.27.5*****
6.34.95.59.4
Base: All Parents of Child in K–12 (n=854) Q1035: What is your child’s favorite subject in school?Base: Child has a favorite subject listed (variable base by subject) Q1040: At what age did your child become interested in [FAVORITE SUBJECT]?Base: All College Students(n=500) Q830: When did you decide that you wanted to be pre-med/to study your area or major in school?
Parents: What Is Your Child’s Favorite Subject in School? Average Age
INTEREST Began
*Base is too small to report. Note: other subjects tested include Social Studies, English, Foreign Language and Geography. All had 5% or less as favorite subject.
STEM Students: Before College, WHAT Got You Interested in STEM?
Base: Parents in STEM Careers (n=132) Q1005: When you were a child, who was the most influential person in your life in helping you decide what career to pursue?Base: All College Students (n=500) Q820: Who had the most influence on your decision to study in this area?; Q840: Before going to college, which of the following got you interested in science, technology, engineering and/or mathematics?; Q845: Please tell us specifically what got you interested in science, technology, engineering and/or mathematics.
37% of STEM college students have a parent in
STEM.
Base: College Students with mother/father in life (variable base) Q880: How influential were your mother and father on your decision to be pre-med/to study in your area or major?Q890: When you were growing up, to what extent did you mother and father encourage or discourage you from pursuing a career in science, technology, engineering or mathematics?Base: All Parents of Child in Grades K–12 (n=854) Q1015: How influential do you think you will be on your child(ren)’s future, specifically the career path they may decide to pursue?
Students: Parent Influence and Encouragement
How influential were your parents on your decision to study STEM?
Base: All Parents of Child in Grades K–12 (n=854)Q1045: How confident are you that you have the skills to help your child with their math and science homework if they asked for your assistance?Q1050: How willing would you be to spend money to help your child(ren) be successful in their math and science classes? Q1030: Assuming all of your child’s basic needs are met, if you had an extra $100 to spend each month on your child, in which of the following ways would you be most likely to spend that money?
Parents: How Willing Would You Be to Spend Money to Help Your Child Be Successful in Math and Science?
61%Extremely
/very willing
Base: All College Students (n=500)Q950: What can parents and schools do to help kids and teens become interested in science, technology, engineering and mathematics?
The word cloud illustrates keywords used by students to indicate how parents and schools can make STEM
more interesting for kids. Larger words represent higher frequencies while smaller words represent
lower frequencies.
Outlook for 2011& Beyond - Parents
• Parents who feel that STEM should be a priority feel this way because they want to ensure the U.S. remains competitive in the global marketplace (53%) and to produce the next generation of innovators (51%); fewer say it’s to enable students to have well-paying (36%) or fulfilling careers (30%).
Outlook for 2011& Beyond - Students
• Importance of K–12 Education (Cont.):– Students who felt less prepared for STEM college
courses said that offering more STEM courses and having better/more challenging courses would have helped to better prepare them — and for students who felt extremely/very well-prepared, it was the challenging, college-prep courses that helped to prepare them.
Outlook for 2011& Beyond - Students
• Importance of K–12 Education (Cont.):– Females in STEM are more likely than males to
say they were extremely/very well-prepared (64% vs. 49%) by their K–12 education, and they are slightly more likely than their male counterparts to say that preparing students for STEM should be a top priority in K–12 schools (92% vs. 84%).
Outlook for 2011& Beyond - Students
• Importance of K–12 Education (Cont.):– Male students are more likely to pursue STEM
because they have always enjoyed games/toys, reading books, and/or participating in clubs that are focused on their chosen subject area (51% vs. 35% females).
– Female students are more likely to say that they chose STEM to make a difference (49% vs. 34% males).