The 2022-2023 school year is underway and the hallways and classrooms are alive with chatter and inquisitive minds! Once again I look forward to traveling the nation and world and providing quality, engaging, meaningful, and sustainable science and STEM professional staff development to educators and administrators. Training sessions are available for one-day to multiple-day institutes. Sessions are available onsite as well as virtual. With each training session scheduled a free 1/2 hour ZOOM follow-up session is available for attendees. Sessions are: Available year-round and on weekends throughout the nation and world. All sessions are custom-designed to fit the specific needs/goals of your district/school. Are aligned to national and regional science standards. Incorporate 21st-century skills. Are highly engaging, hands-on-minds-on, and inquiry-based. Empower the participant through engaging investigations and thought-provoking discourse. Use simple, readily available, and inexpensive materials. Incorporate a wide array of affordable technological tools aside from computer-based technology. Incorporate journaling. Provide opportunities for participants to design and create models to bring back to the classroom. Provide opportunities for participants to process what they have experienced as a learner, and how they will take what they have experienced back into their classrooms. A positive learning community is developed by providing opportunities for discourse and sharing among participants and Dr. Diana. For a downloadable PDF brochure with details of the science and STEM professional staff development, I provide please click here. I look forward to the opportunity to share my passion and knowledge of science and STEM with your staff. Please feel free to contact me with any questions or to book sessions by completing the Contact Form found on the Contact Page. The following video gives a bird’s eye view of what your district, school, or organization can expect from the science and STEM professional development training Dr. Diana Wehrell-Grabowski provides.
Tag: inquiry
Creating A Culture of Inquiry
I had the pleasure of returning to Auburn City School District recently to conduct an introduction to inquiry-based teaching and learning professional staff development training for K-12 educators. When you think of inquiry what do you envision? The students are engaged, active learning, student-driven, and the teacher’s role is a facilitator versus the more traditional role of the teacher-driven classroom. So why teach via inquiry? There is a great deal of research that supports the benefits of inquiry-based teaching and learning here are a few of the benefits. Preps the brain for learning. Cultivates skills for all areas of learning. Promotes curiosity. Deepens understanding. Thinking critically and solving problems. Creates ownership/student-driven. Promotes engagement. Enhances learning. Works across all disciplines. Creates a lifelong love of learning. Questioning is the heart of inquiry. A teacher must strive to create a classroom culture where students are encouraged to ask questions and seek answers to their questions. As well as modeling higher-order questioning. During the introductory training, teachers were introduced to the 3 main kinds of inquiry including structured, guided, and open-ended. Teachers worked in small groups throughout the day conducting mini math and science inquiry-based investigations. Additionally, they were introduced to a multitude of mathematic and scientific tools to incorporate within their lessons. As well as journaling and establishing questions for the group to research. From exploring patterns and shapes in nature and in man-made designs to geometry, electric circuits, and more, it was an immersive day of inquiry. I truly enjoyed working with this cohort of educators who will spend the year further studying and exploring inquiry together, and incorporating inquiry-based teaching practices within their classrooms. Check out the following photos of inquiry in full action.
Transitioning From In-Person to Virtual STEM Training
It has been a major transition for educators globally to transition from in-person to online instruction due to COVID-19 Pandemic. Since transitioning from in-person to virtual STEM professional staff development I have strived to provide engaging virtual professional science and STEM staff development for my clients. There are several key factors I have incorporated to provide quality and engaging virtual professional staff development training. The following is a list of tips that I believe will help teachers and education consultants deliver quality and engaging virtual presentations. Get yourself tooled up to provide professional presentations which will include purchasing quality audio, video, lighting equipment, and research green screen options. If you choose to not use a green screen your background should not be distracting. I signed up for a professional ZOOM account, allowing me to have up to 100 participants per session, and no time limits on sessions. Generally, I set-up my training sessions as a ZOOM meeting versus a webinar. This allows participants to share their audio and video, and be more actively engaged in the training session. I’m able to do this effectively because I normally have group sizes under 50. If the group size is expected to be over 50, or it is a keynote, etc. I choose the webinar format. Secondly, I provide the client with a list of hands-on materials that all the participants will need to have during the virtual training session. These materials are generally readily available to all the participants, as well as their students within their homes and/or classrooms. I have a narrow six-foot lab-type table set-up in front of me where I place all the hands-on materials I will use during the virtual session. Thirdly, I use the chat feature extensively throughout the entire training session. Lastly, I introduce participants to a variety of meaningful technology that will help to make their virtual lessons be more engaging, meaningful, and impactful such as Jamboard, CANVA, etc. I’m hoping that these basic tips will help educators as we continue to modify our methods of instructional delivery for remote and hybrid learning. For more information about the science and STEM professional staff development, I offer onsite and virtually worldwide check out my current offerings on this site. All trainings are custom-designed to suit the specific needs of the client.
Engineering At Home: Deconstructing Gadgets and Tinkering
During the past two months, parents throughout the world have taken on the role of the classroom educator due to the COVID-19 pandemic and forcing the closures of schools. Educators have quickly adapted to bringing their lessons to an online learning format. However, it has not been an easy task for educators to provide quality, meaningful and engaging lessons for their students. It has come with great effort on educators’ parts to become educated on distance learning /remote learning best practices. The 2019-2020 school year has come to an end for many across the globe but learning must stay alive during the summer. I would hope to see K-12 students continuing their learning throughout the summer with having opportunities to explore science, technology, engineering, and math (STEM). Perhaps one of my favorite STEM investigations to introduce teachers and students to is during my STEM workshops is “deconstructing gadgets and tinkering”. As individuals are given the task to thoroughly analyze a broken household gadget or toy they are strengthening their 21st-century skills, nurturing their curiosity, and being introduced to engineering careers. Furthermore, an item that was destined for the trash, and eventually the landfill becomes a great resource for a meaningful STEM-based learning experience. Deconstructing gadgets and tinkering is ideal for home settings as well as classrooms since broken and outdated electronics and gadgets are readily available in almost all homes. Gather the necessary tools to take the gadget apart, a pair of safety goggles, a ruler, some tape, poster board or cardboard, journal, and writing utensils and you are ready to dive into deconstructing gadgets. I will be conducting a free one hour STEM webinar on Tuesday, June 9th, at 2:00 pm ET USA via Zoom “Engineering At Home: Deconstructing Gadgets and Tinkering.” The webinar is free, registration is required. The webinar is geared for educators and parents of K-5 students however, the content can be modified for upper grades as well. Participants will be introduced to inquiry-based practices, the engineering design process, reverse engineering, tinkering, and more. This is an interactive webinar, participants will be asked to have a broken gadget as well as a few other supplies that they will use during the webinar. To register for the free STEM webinar on Zoom click here. To give you an idea of what participants will be undertaking within the confines of their own home as they partake in the STEM webinar check out the video below of a deconstructing and tinkering session I conducted at a local public library. We are in a time where many parents, educators, and students are overwhelmed but it’s also a time where we can bring about positive changes in the way we engage students in the learning process at school and home.
Head Start Teachers Introduced to STEM Practices and Content
Over 60 Madera Head Start Teachers and administrators gathered for a day of STEM training. The room was filled with excitement, building blocks, a mountain of recycled materials to be used in engineering design challenges, low-cost technology and tools, STEM-based children’s literature, and more. Teachers were introduced to the foundational principles of STEM education including teaching via inquiry, designing lessons that engage and empower students, incorporating 21st-century skills within all STEM-based lessons, and incorporating real-world STEM challenges for young children. During the day-long training, teachers were introduced to using low-cost, meaningful technology mathematical and scientific tools, using the outdoors to teach STEM practices and content, building dimensional structures, patterns, shapes, ramp science, tinkering, block building, journaling, and incorporating STEM-based children’s literature within STEM explorations and centers. The teachers were engaged throughout the session, experiencing the beauty and power of STEM education like their young students. I am grateful to be providing ongoing STEM teacher training for Madera Head Start, it takes time and quality professional staff development experiences for educators to truly feel confident to implement STEM learning experiences within their own classrooms. I am excited to see what takes place during the 2019-2020 school year in Madera Head Start Classrooms, the teachers and administrators have truly embraced STEM education. Check out the following video below which gives you a birds-eye view of two different days of STEM training conducted for Madera Head Start Teachers. More ongoing training to take place in February of 2020.
STEM Education in Vietnam
In March I had the privilege of returning to Vietnam to continue providing on-going science, technology, engineering, and math (STEM) professional staff development to teachers and administrators of STEAMe Garten and Apax Leaders. Early childhood teachers of STEAMe Garten in Hanoi and Apax Leaders from both Hanoi and Ho Chi Minh City were introduced to STEM practices and content during five-day STEM teacher training institutes. Participants were introduced to the foundational principles of STEM education, best practices in STEM education, and STEM content. Participants took an active role in the training by working in small groups to conduct a wide-array of STEM-based investigations. Participants were introduced to inquiry-based teaching practices, incorporating journaling in the classroom, using STEM-based children’s literature within STEM lessons, and the engineering design process. A great deal of time was spent on providing opportunities for the participants to see what a quality STEM lesson entails, how it should be delivered, and creating a classroom learning environment that provides opportunities for students to develop and strengthen their 21st-century skills. STEAMe Garten, Vietnam is one of the first private educational corporations to incorporate STEM within early childhood and kindergarten classrooms. Additionally, Apax Vietnam is now offering ESL after school programs that teach English through STEM-based learning experiences. During the two-five day STEM, teacher training institutes participants were actively engaged in conducting “real-world” STEM-based lessons that could readily be incorporated within their early childhood through kindergarten classrooms, and ESL lessons. From designing and building marble roller coasters, to reverse engineering and coding teachers were immersed in exploring the power and beauty that STEM education has in transforming education. The following photos are a sampling of the two five-day institutes that took place in Hanoi and Ho Chi Minh City for STEAMe Garten and Apax Leaders.
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.
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″]
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]
Project-Based Learning in the Early Years
Project-based learning involves teaching through engaging topics that allow the integration of meaningful learning in all content areas while also supporting development across multiple domains. A project approach has been defined by Katz and Chard (1989) as an in-depth study of a topic by either an individual child, group of children or an entire class. Students and teachers together will determine the topic that they will investigate, resources they will use, and the manner in which their learning will be displayed. The project approach is of immense benefit to children because it encourages them to actively seek knowledge. This might entail them to interact with people in the community, environment and seek out other resources. This will encourage the children’s ability to be independent, be motivated and increase their self-esteem. The project approach has immense benefits to teachers too in terms of them pointing the children in the right direction to explore and freeing the teachers to provide more individualized instruction. The project approach also challenges teachers because each group of children will have different ideas and suggestions for the project. Katz and Chard (1989) have identified three phases in the life of a project. The first phase is the initial phase during which the teacher assesses the knowledge level of the children in the particular area, then the children and the teacher develop the questions that they would like to investigate. During the developmental phase the teacher guides the children to gain direct experience in the topic that they are investigating. During the concluding phase the teacher brings a closure to the project and the children share the knowledge they have gained through several creative methods. Whether project-based learning is being incorporated within an early childhood classroom or in a high school classroom, the definition of a project remains the same, “a project is an in-depth investigation of a real-world topic worthy of a student’s attention and effort.” I recently had the pleasure of introducing early childhood through Kindergarten teachers to project based learning during a professional staff development training. Teachers were given a brief overview of project-based learning and the positive outcomes of incorporating project-based learning in the early childhood classroom. I had chosen “Studying the Human Skeleton” as the theme to introduce teachers to project-based learning. During the training teachers were introduced to a wide-array of exploratory centers that could be incorporated within the classroom to investigate the human skeleton in-depth, additionally connections were made across the disciplines to include: art, engineering, physical education, math, reading and writing. The teachers really enjoyed the session, and it was evident by the end of the training session they had truly embraced project-based learning. The administrator of the school requested that each of the teachers submit a reflection piece after the training to summarize the training. They were also requested to incorporate a lesson from the training within their own classrooms. Teachers submitted written reflections as well as photos of the lessons. The teachers stated over and over again “how excited and engaged the students were” when they were engaged in in-depth explorations of the human skeleton. Teachers also stated “that they would re-design” existing lesson plans to be more project-based. The following photos were taken during the introductory Project-Based in the Early Years professional staff development training. For more information about scheduling professional staff development complete the Contact Form on the Contact Page.