In early Spring I traveled to beautiful Sunnyside Washington to introduce early childhood teachers of Inspire Development Centers to STEM practices and content. During the two day STEM training 50 School Readiness Liaison and Early Head Start Teachers were introduced to foundational principles of STEM education and content appropriate for early childhood classrooms. The second day of training introduced the School Readiness Liaison Teachers to STEM explorations that can be incorporated in Family STEM programs and at home. Throughout the two-day training teachers were actively engaged in conducting inquiry-based STEM explorations from building with recycled materials to conducting STEM explorations outside, water science, incorporating affordable and meaningful technology, incorporating children’s literature within STEM lessons, journaling for preschoolers, and more. It was a great group of dedicated educators who will go onto share what they learned during the training with their students and their parents, making a positive impact on the children of the Migrant Workers and the community. Check out some of the photos taken during the two training.
Category: STEM Education
Connecting STEM and Loose Parts
It’s been a very busy six months, and I’m finally, getting a chance to share what I’ve been up to. From conducting teacher training within the state of Florida, throughout the nation, Southeast Asia, and the Carribbean it has been a fulfilling and very rewarding past six months. In February I had the opportunity to travel to East St. Louis to provide professional staff development to early childhood educators at Southside Early Childhood Center. What an impressive school, staff, and administrators with a long history of providing quality childcare to children of families with low-income. During the training, early childhood teachers were introduced to the foundational principles of the Theory of Loose Parts. The Theory of Loose Parts was developed by Simon Nicholson in 1971. Loose parts are materials that can be moved, carried, combined, redesigned, lined up, and taken apart and put back together in multiple ways. The idea of ‘loose parts’ uses materials to empower a creative imagination. The more materials and individuals involved, the more ingenuity takes place. The theory of Loose Parts and foundational principles of STEM are a natural blend. Both promote exploration and creativity, are student-centered and encourage building and engineering. The teachers were immersed in exploring methods of connecting STEM practices and content with Loose Parts throughout the day-long training. Teachers were introduced to inquiry-based STEM explorations, journaling, the engineering design process, as well as having the opportunity to review a wide array of children’s literature that make great connections to STEM and loose parts. As always the teachers truly enjoyed themselves as they became students for the day exploring, investigating, and discovering the powerful impact STEM has on developing and strengthing 21st-century learning skills, as well as empowering and engaging the learner. Check out the following photos of the STEM and Loose Parts training.
Turkish Teachers Introduced to Best Practices in STEM Education
I had the pleasure of traveling to Turkey in January 2019 as the STEM Expert for an American Embassy Grant Program to provide a five-day Train the Trainer STEM Education Institute to middle school teachers. ORAV the hiring agency obtained a grant from an American Embassy Grants Program to provide a two + year project to provide sustainable STEM education to teachers and students throughout Turkey. The project was kicked off in January of 2019 when I provided an intensive five-day STEM Institute for 40 + lead trainers and administrators. During the five-day Train, the Trainer STEM Institute participants were introduced to best practices in STEM education which included inquiry-based teaching practices, developing and delivering investigative-based STEM lessons and learning experiences, 21st-century learning skills, engineering design process, journaling and connecting STEM across the disciplines. These lead trainers will provide STEM training and mentor over 250 teachers throughout Turkey over a five-month period. The 250 teachers trained will incorporate STEM learning experiences within their classrooms reaching thousands of students. I am truly grateful to have been selected to provide the foundational STEM training to the leader trainers of this project. These educators and administrators are extremely dedicated and motivated and have embraced the foundational principles of best practices in STEM education. I look forward to seeing the long-term benefits of this project on both the teachers and children of Turkey. The following video provides a sampling of the STEM learning experiences and discussions that took place during the five-day Train the Trainer STEM Institute in 2019.
Loose Parts and STEM Teacher Training Workshop
It’s been quite a while since I’ve shared summaries of my training sessions with my readers, I will try and catch up over the next couple of weeks with summaries. As always I’m so grateful to have the opportunity to share my passion and knowledge of science and STEM with educators throughout the world. It’s always nice when I am able to conduct teacher training sessions within the state of Florida, where I’m based out of. In December of 2018, I had the privilege of providing a Loose Parts and STEM training session at Forty Carrots in Sarasota, Florida. During the training, early childhood teachers were introduced to the foundational principles of the Theory of Loose Parts. The Theory of Loose Parts was developed by Simon Nicholson in 1971. Loose parts are materials that can be moved, carried, combined, redesigned, lined up, and taken apart and put back together in multiple ways. The idea of ‘loose parts’ uses materials to empower a creative imagination. The more materials and individuals involved, the more ingenuity takes place. The theory of Loose Parts and foundational principles of STEM are a natural blend. Both promote exploration and creativity, are student-centered and encourage building and engineering. During the training, teachers were immersed in exploring strategies for incorporating loose parts within STEM-based learning experiences. Teachers were actively engaged in using low-cost technology tools, building structures with loose parts, exploring states of matter, exploring the senses through loose parts, and more. Additionally, teachers were introduced to STEM-based themed children’s literature. The following photos provide a glimpse of what the training entailed. For more information about Loose Parts and STEM teacher training workshops please complete the inquiry form found on the Contact Page. [envira-gallery id=”1697″]
STEM Teacher Training Course in Vietnam
In early Fall I was contacted by eGroup Education Corporation Joint Stock Company located in Hanoi, Vietnam to conduct an intensive introductory STEM teacher training course for STEAMe Garten and Apax English Teachers. STEAMe GARTEN is part of Egroup Education Group which is one of the first preschools to introduce STEM education methods to preschool programs in Vietnam. For five days 40 STEAMe GARTEN and 10 Apax English Teachers were immersed in delving deep into what a quality STEM education program looks like, observing best practices in STEM teaching practices such as inquiry, student-driven classroom, and designing STEM-based lessons and experiences that engage and empower each individual student. The five day STEM teacher training course started off with introducing the participants to inquiry-based teaching practices, 21st-century learning skills, engineering design process, reflective journaling, and incorporating children’s literature. The first STEM-based investigation I introduced the teachers to was exploring matter of all kinds, in the engineering world, this is called materials science. So much of STEM learning is based on conducting engineering challenges whether it’s building a prototype of a bridge, house, or roller coaster ramp. It’s imperative that teachers give students the opportunity to explore the materials they are expected to use or have the option of using, as well as introducing students to the newest materials that have been developed. During the STEM-based matter lessons teachers compared and contrasted physical characteristics of a wide array of common household materials such as cardboard, cement bricks, wood, Styrofoam and more, as well as unique materials such as super-absorbing polymers, polymers, and Oobleck. After participants became acquainted with the characteristics of building materials and unique types of matter we progressed on to study patterns and shapes and why patterns and shapes are so important to all the STEM disciplines. Participants compared structural integrity of triangles vs. squares, they created 3-dimensional structures with toothpicks and garbanzo beans and then dipped them into a soap solution to observe faces, vertices and edges and more. We also made connections to geometry and architecture. Participants were given the challenge of designing and creating a dimensional structure of their choice within a limited time frame. They were only allowed to use cardboard, tape, string, and decorative materials. These type of engineering challenges provide plenty of opportunities to strengthen and develop 21st-century learning skills (creativity, critical thinking, communication, and collaboration). It was amazing to see all the different type of structures that were created. A gallery walk was undertaken to observe all the structures, and each group was also asked to provide an oral presentation of their building experience and structure. We then moved onto exploring mechanical, electrical and systems engineering via analyzing and taking apart broken household gadgets and toys. This is perhaps one of the most authentic STEM learning experiences a student of any age can undertake to truly understand what engineering is all about. Participants were separated into small working groups where they spent several hours analyzing, deconstructing and organizing internal and external components that made up their gadget. At the completion of the deconstructing engineering challenge a gallery walk was had, and each group gave a presentation to the class about their experience deconstructing the gadget. The teachers shared that from having had this experience they would no longer throw away “outdated or broken appliances or toys” but instead bring them to their classrooms for the students to deconstruct. Depending on the grade level of the students, this engineering experience can be taken to the next level by having students try and fix the gadget, reconstruct the gadget, create a new gadget from the components, or create art from the components. The last of the engineering challenges the teachers undertook was to design and create a marble roller coaster which had to have a minimum of one turn and one loop, using limited supplies which included paper tubes, insulation tubes, cardboard, straws, blocks, tape, string, and decorative materials. Teachers were given a limited amount of time to undertake the challenge. At the completion of the building, a gallery walk of the roller coasters was undertaken where group members demonstrated how their roller coaster worked and discussed the entire learning experience with their peers. As always designing and […]
STEM Explorations for Young Children
Looking for ideas to incorporate STEM practices and content within your early childhood through the primary-level classroom. Check out the following photos of VPK and Kindergarten students conducting hands-on STEM investigations as they rotate through a dozen or so STEM-based exploration centers. Children were free to explore a dozen STEM exploration centers of their choice and spend as much or as little time as they chose. Children had the opportunity to build dimensional structures with recyclable materials, code with simple robotics, explore electronics with Snap Circuits and Circuit Conductors, build a model robot, explore unique states of matter, test out an earthquake table, build with bricks, build ramps with paper tubes and marbles, use levels and draw in the block center, tinker, take household gadgets apart and more. Each of the centers helped to develop and strengthen 21st-century learning skills as well. The following photos and video provide a wide-array of STEM-based exploration centers that are age-appropriate and manageable. The following photos and video are from a recent STEM-based program I conducted for a local school for VPK and Kindergarten students. [envira-gallery id=”1568″] [embedyt] https://www.youtube.com/watch?v=HvRLomlZstQ[/embedyt]
Teachers Explore the Principles of Biomimicry During STEM Teacher Training Workshop
One of my favorite teacher training workshops focuses on the concept of biomimicry. Biomimicry (from bios, meaning life, and mimesis, meaning to imitate)is a new science that studies nature’s best ideas and then imitates these designs and processes to solve human problems. Think of biomimicry as “innovation inspired by nature.” Nature has inspired scientists and engineers in developing camouflage clothing, adhesives, solar energy, filtration systems, transportation systems, drones and beyond. During the biomimicry-based teacher training workshops, teachers are introduced to the concept of biomimicry by studying a wide array of man-made gadgets and systems and discussing how scientists were inspired by nature in designing the gadget. During a recent STEM teacher training workshop, I conducted teachers were introduced to the principles of biomimicry. We ventured outside to observe “real-world” examples of biomimicry. Upon returning to the classroom teachers studied a wide array of examples of gadgets that were inspired by nature, teachers used an assortment of mathematical and scientific tools in their analyses including incorporating digital photography. Each group was asked to construct a mind map of their discussions of biomimicry as well. Teachers were then given the engineering challenge to look to nature in designing a prototype of a gadget that would help to solve a problem that humans face. Teachers incorporated the engineering design process as they brainstormed, designed and built prototypes of gadgets and structures that were based on inspiration from nature. Teachers built solar chargers, shelters, floatation devices, lighting systems, and more. When teachers introduce their students to biomimicry concepts, as well as giving the students an engineering design challenge based on the principles of biomimicry, this is truly an authentic and “real-world” STEM-based learning experience. For additional information on biomimicry check out the Biomimicry Institute website. The following photos were taken during the biomimicry/ STEM teacher training workshop. [envira-gallery id=”1526″]
Science and STEM Exploration Centers to Inspire and Empower Young Children
The school supplies are flying off the shelves, it’s that time of year again when parents and teachers are getting ready for the start of a new school year. If you are an early childhood educator, you are perhaps the most influential individual in the eye of a young child. As you begin to plan for the upcoming school year think about what changes you may be able to make within your classroom and even teaching practices that will provide plenty of opportunities for the young child to explore, discover, and investigate. Learning experiences that will lead to the child being inspired and empowered. Take the time to find out what each child’s interests are, and provide learning experiences that will fuel their natural curiosity and interests. With the push to incorporate more science, STEM and technology within the early childhood classroom think deeply about what science and STEM experiences you will introduce the children to. When it comes to incorporating technology within the early childhood classroom think beyond the computers and Ipads, and tool a child places in their hand to make observations, and gather more data about the world around them is considered a form of technology. Thus, incorporating mathematical tools such as rulers, measuring tapes and levels are a great way to introduce the children to tools and technology. Providing simple hand lenses and microscopes, plastic pipettes and beakers, simple household tools and tool belts are ideal for science and STEM exploration centers. Science and STEM exploration centers should allow children to use as many of their senses as possible, incorporate journaling and drawing, as well as access to children’s literature. The following video provides snippets of hands-on-minds-on science and STEM exploration centers that provide opportunities for children to truly explore and discover and make sense of the world around them. The science and STEM exploration centers are highly engaging and the concepts being learned are meaningful to the child. These type exploration centers are sure to inspire and empower the young child. For more information about the science and STEM professional staff development and interactive keynotes Dr. Diana Wehrell-Grabowski conducts worldwide contact her via the contact page. [embedyt] https://www.youtube.com/watch?v=j2vzWty0Zi8[/embedyt]
Teachers Views on Professional Staff Development
Over 18 billion dollars in the United States alone is spent on professional staff development. Yet many teachers report that current professional staff development offerings are neither relevant nor effective. So, the Bill & Melinda Gates Foundation contracted with the Boston Consulting Group in 2014 to reach more than 1,300 teachers, professional development leaders, principals, professional development providers, and thought leaders through a series of surveys and interviews. Read the complete findings of the study here. Professional staff development that is designed and delivered to meet the needs of the specific target audience will have long lasting positive impacts on those teachers in attendance, and the students they reach. Check out the following video with snippets from professional staff development sessions that Education Consultant, Diana Wehrell-Grabowski, PhD has conducted. Teachers attending the professional staff development sessions are engaged, empowered and inspired. When these factors come together this leads to positive learning experiences and transformations. [embedyt] https://www.youtube.com/watch?v=8vAcLXmPRw0[/embedyt]
The State of STEM Report, May 2018
For the latest findings on STEM education and workforce in the United States check out The State of STEM Report: A Comprehensive View of the STEM Ecosystem, with Recommendations for Where Collaborations Should Focus Future Investments at STEM Connector.