3.1: I. Introduction
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Emily van Zee and Elizabeth Gire
The theme for this course is what happens when light from the Sun shines on the Earth? In this unit, you will be exploring the effect of light and thermal phenomena on local weather. While exploring these phenomena, you will be:
- identifying resources such as everyday knowledge about water and weather
- developing central ideas based on evidence about the water cycle
- explaining intriguing phenomena such as why, during a sunny day at the beach, the sand is hot, the water cool, and cloudy skies as well as sea breezes often appear in the afternoon
- developing mathematical representations of the transfer of energy in various contexts
- using mathematical representations to estimate a quantity of interest such as predictions about “will it rain tomorrow”? and
- making connections to educational policy, such as the Next Generation Science Standards (NGSS Lead States, 2013), the science standards adopted by many US departments of education.
This unit continues exploration of learning processes as well as of physical phenomena. Summarizing and reflecting upon these explorations will foster integrating science and literacy learning. This includes learning to speak clearly, listen closely, write coherently, read with comprehension, and create and critique media.
The main sections present questions with suggestions for exploring topics and for writing reflections about your findings. Text in gray font indicates that these are suggestions; you may think of other ways to explore the topic. Asking your own questions as well as those posed here will enhance learning both about physics and about learning. Check with your instructor if you choose to devise an alternative approach.
Keeping track of what one is doing and thinking is important. In this course, use a template for a physics notebook page on which to record your notes during class. The physics notebook page can help you remember your thoughts before, during, and after an exploration. An experienced elementary teacher, Adam Devittt, designed this notebook page to mirror the structure of before, during, and after reading strategies:
Before starting your exploration, think about and discuss with your group members what you know already about the topic, how you plan to conduct the exploration, and what you think you might find out.
During your exploration, record what is happening, what you are observing, and what you are thinking about what you are observing. Include sketches of equipment and observations. Note any words that are new and their definitions.
After your exploration, record any central ideas that have emerged from your observations and discussions. Also note the evidence on which you have based these ideas. State explicitly how the evidence is relevant and supports the claims you are making in stating the ideas. Also explain why this result is important. Then write a reflection about whatever you want to remember about this experience. In addition, briefly state what you are still wondering in this context.
After class, use your physics notebook pages and any handouts to write a summary of your exploration and findings. Writing such a summary after every class is a good way to prepare for the midterm and final examinations.
Next, to be sure you have understood the physics involved, read this text and some examples of student work. The student authors first wrote drafts, received feedback for ways to enhance content and clarity, and submitted these final versions. Also read about some nuances to be aware of in these contexts.
You may also find helpful students’ reflections about teaching friends and/or family members about what they had just learned in class, historical information about ways knowledge about the topic developed, and some relevant aspects of the nature of science in the context of the topic explored. These sections of the text may broaden your understanding of science and of science learning and teaching.