Winterim–Lab Rats Disney

Clarksville Academy Students in the Disney Lab Rats spent the first week of Winterim learning robotics coding and learning the physics principles of roller coasters.

Yesterday, these 16 students traveled to Disney World to see the science behind the park.  Students will take courses in Exploring Careers in Zoological Sciences and Energy and Waves Physics Lab.  Like their Leadership counterparts, students will take course in the mornings and will be asked to document evidence of what they learned as they enjoy the parks in the afternoon.


Day 1: Today students learned about careers in zoological sciences at the Animal Kingdom.  Led by Abby, an educator with expertise in the field, began by telling students about the park and how each part focuses on conservation.  The tree of life is modeled after an oil rig.  We rode Kilimanjaro Safari and learned about the steps taken by Disney to function as a zoo and the many careers involved in the care of animals and development of their habitats. Student played games and participated in demonstrations before heading “off stage”. In this area no cameras are allowed. Students went to the Tembo house, where elephants receive care. We met ectotherm specialist Trevor and his snake, Siba.  Nutrition for the animals was discussed and preparation was observed. We even saw Disney veterinarians operate on an antelope!  Abby described the many careers that play a role in maintaining a zoo and shared her experiences with the students. Tomorrow we will head to the Magic Kingdom to learn about energy and waves, and development of special effects.


Day 2: Today’s lesson focused on energy and waves, and how both are used in the Magic Kingdom.  Our leader, Rusty, discussed types of waves and their properties.  Students created a human circuit to successfully power a light. We rode The Little Mermaid ride to demonstrate the manipulation of sound to enhance rides. Students rode the Haunted Mansion and then were taken underneath the ride! We saw how Disney uses mirrors and scrim to create the Pepper’s ghost illusion used throughout the ride. We were able to watch riders in “doom buggies” from the other side of the dancing figures in the haunted ballroom.  Forced perspective is used all over the park to trick the eye.  Our final stop was Mickey’s Philharmagic.  All of our lessons merged with this attraction that manipulates sound and light, in addition to using other sensory tricks to create a rich experience. For example, over 180 speakers are used in that attraction.  They range in size and direction to create a magical show.


Day 3: Today’s experience focused on the art of Disney.  We participated in two classes at the Contemporary Resort. Our first class taught the history and techniques of cel animation. Artists Gina and Lynn, who worked on “The Princess and the Frog” and “The Little Mermaid ” took students through the steps of creating their own cels. Our creations will be dried and shipped next week. Kevin, one of Disney’s professional photographers, led our second class. Students received a set of lenses to use with their phones. Kevin gave the students five tasks in and around the resort. He proceeded to demonstrate and discuss tips to take great pictures and had students use the tips to redo their tasks. We then compared the images before and after learning professional techniques.  Kevin was adamant that the type of camera is not what makes a great picture. The photographer’s choices are what can make a cell phone picture look professional.  After our classes we visited the Animal Kingdom. Tomorrow we return home.

STEM

Joann Askew, Lower School Science Lab/STEM Instructor


Science, Technology, Engineering, Math – disciplines collectively known as STEM, the buzz word of the science community, has evolved. It became STEAM (Science, Technology, Engineering, ART, and Math. Then, before we could memorize it, it morphed into STREAM (Science, Technology, READING , Engineering, Art, Math). It is comparable to our ever-changing complex world and we continue to adapt our educational approach. As we educate the next generation, it is more important than ever that we prepare our youth to be critical thinkers and problem solvers. It addition to content knowledge it is crucial that we train students in the field of technology to meet the needs of the world’s workforce. We can no longer educate in a traditional format that presents itself as “a teacher in front of the room – teaching content” and measure progress with traditional “fill in the bubble” tests. We need to instill a desire for building, creating, tinkering and making. These provide helpful projects that promote further exploration and learning in our naturally curious youth. We need to question like a scientist, design like a technologist, build like an engineer, create like an artist, deduce like a mathematician and most importantly…play like a child. In order to maintain global influence, we continue to advance our efforts in educating under the current acronyms. November 8, is National STEM/STEAM day. A day recognized and set aside to inspire youth to identify passions related to these disciplines. We are fortunate to live in a time where information is so accessible; we have no excuses. We find trends are changing, we continue to make headway encouraging girls and women to impact the STEM/STEAM/STREAM workforce.

Realizing the trends of the present parents, mentors, and educators will need to utilize STEM, STEAM, STREAM – in fact, all subjects to build leaders of the future. As we prepare our students to excel, not only in school, but in LIFE, we recognize the need to educate differently. So on November 8, National STEM day, gather up the students in your life, get a full head of STEAM and create something that engages, stimulates curiosity, and just might make an impact in the world.

Inquiry Based Learning

By: Carol King, FUSE Instructor


As the world that our children are growing up in is changing, the way they view and learn about it needs to change as well. Schools are tasked with continually adapting to best meet the needs of students. There are several modern ways to approach teaching and learning that help children become 21st century learners who collaborateand problem-solve, are digitally literate, and can think critically. One effective method used in many classrooms today is called Inquiry Based Learning.

What Is Inquiry Based Learning?

Inquiry Based Learning (IBL) is a way for students to learn through exploration and investigation. Students are presented with a question or problem,then are allowed the time and freedom to discuss with their peers, research information, and engage in hands-on activities. Students are required to base their discoveries on evidence and often delve into data to support their investigations. Communication of their findings is also an important part of the process. Whether by writing or presentation, students share what they’ve learned with their peers.

What Does It Look Like In The Classroom?

There are many ways to use IBL across all subject areas. In a science classroom, this might come in the form of creating a water filter out of recyclable materials or determining a correlation between genetics and certain diseases. Social Studies students may determine alternate ways that the American Revolution could have been handled or plan and design a functioning community. In reading class, students could explore characters in a novel, participate in in-depth character study discussion groups, determine how a character’s decision in a novel could have changed the outcome,  and then justify a character’s choices. These are just a few of the many applications of IBL in the classroom. By allowing students to investigate and collaborate, what they learn has depth and meaning.

The Benefits

There are several benefits to teaching students through inquiry based learning methods. Students are at the center of this process, therefore are often more engaged due to feeling ownership of their learning. This investigative approach challenges students’ thinking and places a priority on evidence, logic, and imagination. By sharing their outcome, students practice communicating using appropriate vocabulary and learning to justify their conclusions.

Why Is It Important?

Inquiry Based Learning is an engaging approach that keeps students excited and accountable for their academic experiences. This teaching style forces them to be creative thinkers and explorers who can support and justify their findings. It provides opportunities for students to gain 21st century skills and thought processes needed to be valuable members of our community and future workforce, as well as lifelong learners.

 

For more information about the Clarksville Academy FUSE program visit: https://clarksvilleacademy.com/academics/lower-school/fuse/

Why STEM?

By: Paul Mittura, Upper School Science


You get up on cold winter morning and the sparse clouds are beautiful reds, pinks, and oranges. Why? You are trying to head a soccer ball and can’t quite find the right place to be. Why? The breaker keeps tripping when you use your curling iron. Why? You are cleaning your bathroom and the new cleaner is making your eyes water and your throat scratchy. Why?

As a science teacher, people are constantly asking me why.

Most behaviorists would agree infants are born with innate reflexes like grasping, sucking, and blinking,but most behaviors are learned through exploration and experience. Most children will look at, pick up,and taste everything they can reach in their environment. As adults, we discourage the touching for fear of embarrassment and the tasting for obvious reasons. We encourage our children to explore in our predetermined “safety” filtered environment. This environment is usually inundated with the interests of the parents. For example if the parents are sports enthusiasts the toddler will be dressed in team apparel and every type of ball known will be in the playpen. We expose our children to what we know and like.

This behavior is both normal and expected.

As educators, it is incumbent upon us to introduce children to all disciplines. With STEM education, students are encouraged to explore the areas of science, technology, engineering, and mathematics. Quality STEM educators can produce environments with “safety” parameters that allow each individual to experiment with disciplines they may not have had the opportunity to explore in a home environment. Early introduction is important for the formation of accurate concepts in a controlled environment with respect to the 4 disciplines. Continued exposure (grades 1-12) to these types of explorations is an important part of STEM instruction. One of the biggest obstacles for any educator is the dispelling of a misconception caused by misinformation or misinterpretation. Continually introducing STEM activities hopefully prevents these misconceptions from developing.

Now here comes the tough part. It is impossible for teachers to become “experts” in all areas of the educational process. Only through collaboration and pooling of resources to include expertise can pure STEM education be achieved. Vertical teaming (elementary and secondary teachers) and cross curricular teaming (science, math, English, social studies, fine arts, etc. teachers) is a good start. Ideally this would occur with each new unit,but as little as once each semester can capture a student for future studies in a discipline. This concept looks good on paper,but the logistics of moving teachers around and finding time for collaboration is a potential nightmare. Large group presentation is an option but is far less effective than single class presentations and hands on exploration. Regardless of the obstacles, STEM is a worthwhile endeavor. Capturing the interest of students is every educator’s goal and a school dynamic rich with STEM opportunities should be every institution’s goal.

To learn more about CA’s STEM program visit: https://clarksvilleacademy.com/stem/

 

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