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STEM Education Sounds Great! Now Where Do I Start?

STEM Education Sounds Great! Now Where Do I Start?. Incorporating STEM Education Into Your Curriculum Presented by Diane Insari and Kimberly Dempsey d iane.insari@lcps.org k imberly.dempsey@lcps.org. Today’s objectives. We will explore…. What STEM is and what STEM is not

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STEM Education Sounds Great! Now Where Do I Start?

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  1. STEM Education Sounds Great!Now Where Do I Start? Incorporating STEM Education Into Your Curriculum Presented by Diane Insari and Kimberly Dempsey diane.insari@lcps.org kimberly.dempsey@lcps.org

  2. Today’s objectives • We will explore…. • What STEM is and what STEM is not • Why STEM is important • How to start a STEM initiative in your school • Mini STEM activities

  3. Catapult Challenge

  4. Your mission…. Real- Life Situations Your mission is to acquire more land for your king by laying siege on a neighboring castle. Using your catapult, your team must get as many boulders over the wall and into the castle as possible in 3 minutes.

  5. Reflection: What adjustments were needed to make your boulder fly… Further? Higher? Faster? More accurately?

  6. What Is STEM education? Science * Technology * Engineering * Math STEM- The Thinkers of Tomorrow

  7. We define STEM education as the preparation of students in competencies and skills in the four disciplines: Science Technology Engineering, and Math.

  8. STEMeducation provides: • Sequences that build upon • each other • Real-world applications • Integrated disciplines

  9. science • Hands-on activities • Cooperative learning • Open-ended trials • Critical thinking • Real-life applications

  10. technology "...the goal of technology is to make modifications in the world to meet human needs." The National Science Education Standards

  11. Let’s test your knowledge of the history ofeducational technology

  12. “Students today depend upon _____too much. They don’t know how to write on _____ without getting _____ ____ all over themselves. They can’t clean a ____ properly. What will they do when they run out of _____?” • (Principal’s Association)

  13. “Students today depend upon papertoo much. They don’t know how to write on slate without getting chalk dust all over themselves. They can’t clean a slate properly. What will they do when they run out of paper?” • (Principal’s Association 1815)

  14. “ _________ ____ will be the ruin of education in our country. Students use these devices and then throw them away. The American virtues of thrift and frugality are being discarded. Business and banks will never allow such expensive luxuries.” • (Federal Teacher)

  15. “ Ballpoint pens will be the ruin of education in our country. Students use these devices and then throw them away. The American virtues of thrift and frugality are being discarded. Business and banks will never allow such expensive luxuries.” • (Federal Teacher1950)

  16. “__________ ___________ became visible in the mid ____’s but prices were astronomical, sometimes in the thousands of dollars.  In the ____’s, they started to become more reasonably priced.”

  17. “Electronic calculators became visible in the mid 1960’s but prices were astronomical, sometimes in the thousands of dollars.  In the 1970’s, they started to become more reasonably priced.”

  18. From sites.google.com • Like • Repin engineering The Design Process: the engineering approach to identifying and solving problems

  19. math • Integration of… • Computation • Graphing • Measurement (Weight, Length, • Volume, Time, Temperature) • Geometry • Problem Solving • Probability

  20. The stem philosophy • Teacher as Facilitator • Hands-On Exploration • Trial and Error • More Than One Right Answer • Integrated Curriculum

  21. STEM is not… • An add-on • Arts and crafts • Showing off • Only for high-achieving students • Teacher demonstrations • Step-by-step directions

  22. Stem to Steam • Integrating the Arts • Art • Music • Foreign Language • Physical Education • Social Science • Collaboration • Hands-On Activities • Problem Solving • Technology • Real-Life Applications • Design Process • Critical Thinking

  23. Why Is STEM Education Important?

  24. Educate to Innovate • Invest more in STEM education so students can learn to think critically in science, math, engineering, and technology. • Improve the quality of math and science teaching so American students are no longer outperformed by those in other nations. • Expand STEM education and career opportunities for underrepresented groups, including women and girls. • President Obama’s National Security Strategy, May 2010

  25. 21st Century Readiness for All Students • Creativity and Innovation • Critical Thinking and Problem Solving • Communication • Collaboration

  26. STEM in Virginia • Virginia Tech • VT-STEM K-12 Outreach Initiative • Summer STEM Institute for Teachers • College of William and Mary • STEM Alliance initiative for middle school • $580,000 grant from the National Science Foundation to benefit women faculty • $2.5 million grant pairs teachers with professional engineers and scientists • University of Virginia • Ph.D. in Interdisciplinary STEM Education • STEM Education Programs • Programs for High School Students: • Ten Governor's STEM Academies • Virginia Council on the Status of Women 2012 STEM Essay Contest- • Mrs. O’Donnell, Chair

  27. STEM in the Elementary classroom Investigating shadows

  28. Insert 1st grade video here

  29. Let’s try a stem activity! BUILDING A LUNAR LANDER

  30. the mission NASA is looking for safe landing sites on the moon. Once they find one, they need to design and build a spacecraft that can land there without injuring astronauts or damaging the spacecraft. Today you’ll make a lander—a spacecraft that can land safely when you drop it on the floor of the moon– or classroom.

  31. your task 1. Design and build a shock-absorbing system out of paper, straws, and mini-marshmallows. 2. Attach your shock absorber to a cardboard platform. 3. Use test results to improve your design.

  32. The Design Process identify the problem or challenge; 2) brainstorm solutions; 3) design your equipment or device; 4) build it; 5) test and evaluate the outcome; 6) discuss your solutions; and then 7) make improvements for better performance.

  33. Starting a stem initiative in your school

  34. A Four-Tiered Approach Our Four-Tiered Approach

  35. INITIATE A FOCUS GROUP • Gauge interest • Solicit support • Brainstorm ideas • Form a committee • STEM COMMITTEE MEMBERS • Administrator(s) • Teachers from each grade level • Technology Resource Teacher • Specialist Teacher(s) • Parents/Business Partners

  36. STEM committee first steps • Create a LOGO • Define Vision and Mission Statement: • Liberty Elementary: Preparing Active Learners! • “We believe that cultivating active thinking through a • STEM instructional approach will prepare students • for their futures.” • Share vision with staff and community • Professional development for committee • Acquire resources

  37. Solicit support • Get Staff Buy-In • Refine vision and goals • Hands-on STEM activity with staff • Gauge interest with staff survey • Get Students Excited • Morning News Show: ‘Fascinating Facts’ • After-School: Robotics, Science Club, Lego League, Odyssey of the Mind • Science-themed assemblies • STEM activities during school day • Peak Parents’ Interest • Newsletter, Web Site, Posters, Bulletin Boards, Word of Mouth • Kick-Off Event: STEMmerday!

  38. STEmmerday An annual STEM event

  39. Acquire resources • Human Resources: • Parent Volunteers • Local Technology Company Employees • Universities • High School • Central Office Science and Math Departments • Financial Resources: • Inventory current resources • Grants • Donations from parents and local • businesses • Donations from employers of parents • PTA support

  40. Professional development • STEM Conferences/Professional Organizations • Children’s Engineering Conference • International Society for Technology in Education (ISTE) • STEM Classes/Degree Programs at Universities • Peer-to-Peer Collaboration • Team Planning Days with Committee Support • Professional Learning Communities to include Specialist Teachers • Collaboration with STEM Professionals • STEM Camp for Teachers • Social Networks/Blogs (Follow #STEM on Twitter) • STEM Web Sites (Pitsco.com, Learning.com) • STEM Literature/Articles

  41. Insert testimonials here

  42. For a copy of this presentation and more information about STEM see our website: www.lcps.org/liberty Or contact us: diane.insari@lcps.org kimberly.dempsey@lcps.org

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