As an educator, you’re keenly aware of how curious and observant children are. They strive to understand and make sense of the world around them. How can you provide them with the opportunity to do just that within science instruction? How can your classroom become a place where student curiosity is nurtured and developed?
Too often in science instruction, students are left reading about scientific discoveries of the past and memorizing scientific facts instead of experiencing science. PhD Science® was crafted to change that, leveraging students’ curiosity to build a deep and lasting understanding of science. With PhD Science, you’ll quickly notice a shift in student engagement as students make strong connections through real-world phenomena and problems.
PhD Science students don't just read about science but also practice science, building deep and lasting comprehension of scientific concepts through hands-on investigations. Often the term investigations renders images of mixing liquids in a beaker or something along those lines. It might even trigger visuals of “experiments,” including those that take a student step by step through the procedures.
Investigations and experiments are only a small part of all that can be considered “hands-on.” Hands-on can include all the ways students interact with content. This can be through investigations or demonstrations, observations of images and fine art or graphs, videos, and other primary sources plus additional activities and the reading and analysis of trade books. By widening the scope of hands-on, your students receive more opportunity to engage in the science and engineering practices.
Shifting from Memorization to Deep Understanding with Activities
As was mentioned in the example above, PhD Science students move beyond simply memorizing the definitions of science terms to engaging in an ABC > CBT (Activity Before Concept > Concept Before Terminology) approach. This ABC > CBT approach aids students in their conceptual development. Students gain a basic understanding before a concept is presented and investigate the concept more until formal names or terms are introduced.
An activity from Level 3 Module 4 involves students investigating sliding motion by releasing a wooden block down a ramp. This is one of six motion stations that students explore. As they move to the next lesson, students apply their learned knowledge in a new context, applying terms such as direction, speed, and rest.
PhD Science introduces students to new concepts through engaging hands-on activities that allow them first to observe and wonder and then to investigate and deeply understand phenomena.
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Connecting Science to the Real World
Students are given opportunities to design and conduct investigations and apply scientific processes in new contexts through Science Challenges or Engineering Challenges. With a Science or Engineering Challenge in each module, students can continue to build and connect knowledge of the world around them.
Science Challenges allow students to work with peers to answer questions or solve problems and present their findings to the class. In Level 2 Module 4, students explore the varied environments of the Mount Everest region. Throughout the module, students analyze biomes by looking for patterns in weather data and considering the variety of life in different areas around the world. In the Science Challenge, students apply what they have learned to their local environment as they measure and describe the biodiversity of their schoolyard.
In Engineering Challenges, students develop a solution to a real-world problem. In the Level 3 Module 4 Engineering Challenge, students work to answer the question, “How can we use magnets to design a solution to help astronauts in space?” Students engage in the engineering design process while considering the criteria for success and the limitations imposed by constraints, such as the materials and resources available and time allocated. Engineering Challenges hold all students to the same expectations while promoting student creativity and choice.
The Engineering Design Process grows in complexity from Level K to Level 5.
What to Expect with Hands-On Investigations
Hands-on investigations provide students with shared opportunities to collect evidence, develop and evaluate their ideas, and build scientific explanations. Hands-on investigations are supported by materials kits with cost-conscious consumable and nonconsumable supplies. Kits are available by module or level and designed for 24 students with up to six investigation groups per classroom. PhD Science provides hands-on experiences that enable students to engage in science activities and connect content to the real world.
PhD Science is joyfully rigorous with students excited about digging in. We don’t sacrifice the content or requirements for the sake of keeping students engaged. The rigor itself promotes that engagement and interest in making sense of the world.