 |
 |
Teaching resources:
Resource database
Get lessons, activities, readers, videos, and more.
FOUND 42 RESOURCES:
 | Age dating star clusters Students explore how classification and graphing are used by astronomers to determine the age of star clusters. They will measure the color and brightness of stars, as proxies for temperature and luminosity
|
|
 | Amazon fly This short activity quickly engages the participants in the process of developing testable hypotheses. Students come up with multiple hypotheses to explain a set of observations and figure out how to test these hypotheses.
|
|
 | Anolis Lizards Students "travel" to the Greater Antilles to figure out how the Anolis lizards might have evolved there. Students make observations, ask questions, share data, form hypotheses, generate expectations, get more data, interpret them, and test their ideas.
|
|
 | Benjamin Franklin: STEM Activity Toolkit Ken Burns’s four-hour documentary, Benjamin Franklin, explores the revolutionary life of one of the 18th century’s most consequential figures. This STEM Activity Toolkit frames the context of the film series, and provides guidance for viewers to engage in discussions and activities around science, technology, engineering, and math.
|
|
 | Climate Models and Uncertainty Earth's climate system is enormously complex, and scientists develop climate models to understand how climate change will play out in different parts of the world. Students play a climate resilience game, and then explore the Intergovernmental Panel on Climate Change’s 5th Assessment Report to learn more about how climate scientists handle uncertainty in models.
|
|
 | Clipbirds In this activity, students simulate bird feeding with "beaks" that differ in size. The proportion of big-, medium-, and small-beaked birds changes in response to available types of food. This is a lesson on evolution, but suggestions on how to incorporate the nature and process of science are included.
|
|
 | Clouds, Models, and Climate Change How do clouds form? How are clouds affected by (and how do they affect) climate change? Students create a cloud in the classroom, and then investigate climate models and real-time cloud observation data.
|
|
 | Crime scene: The case of the missing computer chip In this classroom activity, teams of students use clues to adjust working hypotheses about an unsolved crime. The nature and process of science are recognized through discussion of the crime solution metaphor.
|
|
 | Designing your very own science experiment Students design and carry out an experiment using pill bugs (isopods). Other organisms could be used in place of the pill bugs. Students reflect on the process used by charting their pathway on the Science Flowchart.
|
|
 | Dogs and turnips In this lesson students attempt to assemble a meaningful sentence by successively turning over cards with words on them. The point is made that we change our ideas of what a story may be as we gather more information.
|
|
 | Exploring bouncing balls Students explore the physical properties of a variety of balls and how they bounce. Students then reflect on the process they used by charting their pathway on the Understanding Science Flowchart.
|
|
 | From city girl to naturalist This Science Short illustrates how scientists are shaped by their personal experiences in the context of research about fossil insects.
|
|
 | Galaxy classification This is a modified version of Galactic Inquiry in which students learn about galaxy classification while also experiencing a simple simulation of peer review and community analysis.
|
|
 | How science works This Science in Action video uses the Understanding Science Flowchart to follow arachnologist Charles Griswold and colleagues as they describe the process involved in an exciting new spider discovery.
|
|
 | How science works This video uses the Understanding Science flowchart to describe how a team of scientists investigates climate change throughout Earth's history with ocean sediment cores.
|
|
 | Introducing the Understanding Science flowchart Students participate in a quick activity and discuss whether they were doing science. They then read a story about Walter Alvarez, discuss the process of science, and trace his scientific journey using the Science Flowchart.
|
|
 | Inventing Tomorrow: Air Module This module uses a film about students José, Jesús, and Fernando, who investigate smog in their town in Mexico, as a jumping off point for students to expand their understanding of air pollution, global warming, and the process of science.
|
|
 | Inventing Tomorrow: Water Module This module uses a film about student Sahithi Pingali, who investigates water quality in her hometown in Bangalore, as a jumping off point for students to expand their understanding of eutrophication and the process of science.
|
|
 | Investigating a Crime Scene Two suspicious dogs and a shredded book provide a perfect combination for focusing on the process of science and to do so with a bit of a chuckle. This powerpoint has been developed so that you can ask for student responses throughout.
|
|
 | Investigating a Deep Sea Mystery In this lab activity, students examine authentic morphological and phylogenetic data of three fish families and then pose and test alternative hypotheses about the fishes' classification.
|
|
 | Mystery boxes: Uncertainty and collaboration Students manipulate sealed "mystery" boxes to determine the inner structure of the boxes. The nature and sources of uncertainty inherent in the process of problem-solving are experienced, but reduced by collaboration.
|
|
 | Mystery tubes Students are asked to determine what the interior construction of the mystery tube looks like. Working in groups, students pose explanations for what they are observing and test their ideas.
|
|
 | Newton's 2nd law: Inquiry approach Students act as colleagues of Isaac Newton. Students focus on how to design a procedure to test Newton's hypothesis and then communicate that idea to others. The emphasis is on the process rather than the actual results.
|
|
 | Number patterns Students try to discover the relationship among six numbers. The objective of this activity is to engage students in a problem-solving situation in which they practice aspects of the process of science.
|
|
 | Poking around Students are introduced to the process of scientific inquiry as they develop an approach to determine the shape and size of an unseen object.
|
|
 | Rutherford's enlarged: A content embedded NOS activity Students reason about a model of Ernst Rutherford's famous experiment supporting the idea of the atomic nucleus. They differentiate between observation and inference and see the role of creativity in the process of science.
|
|
 | The checks lab Students construct plausible scenarios to explain a series of canceled bank checks. They revise their original hypotheses with new evidence and learn how human values and biases influence observation and interpretation.
|
|
 | The great fossil find Students are taken on an imaginary fossil hunt and form hypotheses about the identity of the creature they discover. Students revise their hypotheses as new evidence is found.
|
|
 | The Hobbit: When scientists disagree about the evidence This classroom activity, adapted from an exercise on PBS's NOVA website, provides an excellent example of an active debate within the scientific community regarding a relatively recent human fossil find, Homo floresiensis.
|
|
 | The story behind the science Thirty stories spanning five disciplines help students explore key science concepts through the eyes of the scientists who were involved, while emphasizing the nature and process of science.
|
|
 | Time for mitosis Drs. Lederman compare two methods of teaching about mitosis, emphasizing how to enhance a lesson by incorporating the nature of science.
|
|
 | What do you think it means to be human? This first lesson of the "What does it mean to be human?" sequence sets a scientific frame of mind for students as they begin to explore the question, “What do you think it means to be human?” This lesson sets an important tone by highlighting that other lines of human inquiry outside of science are important for answering this question on a personal level, but the class will focus on a scientific definition of “humanity.” Students learn to distinguish questions that could be addressed by the methods of science and those that could not, and they practice applying these criteria.
|
|
 | What is it about Los Angeles? This Science Short illustrates the idea that answering one scientific question leads to other scientific questions in the context of research about fossil insects.
|
|
 | What's in a Word? Word choice in the classroom can (mis)represent science. Use word lists to combat misconceptions about science that stem from vocabulary mix-ups. Find out how in this article distributed with permission from Science Scope.
|
|
 | Xenosmilus In this lesson, students play the roles of paleontologists on a dig. They "unearth" a few fossils at a time and attempt to reconstruct the animal the fossils represent.
|
|
|
 |
 |