This inquiry based activity will help students discover that marbles move in a variety of ways and the path in which it starts to move can be changed.

This activity is a structured inquiry into why objects move and why some objects move farther than others. Students will make predictions on how far an object will move when blown on, blow on the objects, measure the distances they moved and record their findings.

Through the use of marbles, this investigative experiment gives students the opportunity to learn about motion.

This is a guided inquiry lesson using tops to teach the students how to raise questions and seek answers by making careful observations. They will note what happens when they explore the tops and then share their results with others.

This activity is an outdoor lab investigating Newton's Third Law with film canister cannons.

In this activity students will learn to calculate the speed and acceleration of an object using tornado tubes and determine if mass affects the speed of the object.

Students gather data on miniature cars and use this data to calculate speed and acceleration.

In this activity students will conduct an investigation on speed and velocity by designing a roller coaster model.

This activity is a lab investigation where students develop an investigable inquiry question, construct a fleet of boats, collect data about how many passengers (pennies) each will hold before sinking, interpret their findings, and will share methods and results during a poster session.

In this video segment adapted from ZOOM, the cast builds a suspension bridge from a couple of chairs, some cardboard, and rope.

This guided inquiry activity is designed to help students understand the effectiveness of inclined planes to reduce the amount of force needed to move an object.

This model-making activity gives students an opportunity visualize Newtonian forces acting on a single point as well as combined forces acting to produce synclines and anticlines in Earth's crust. Students will analyze models to interpret findings of plate movements.

This investigation involves a web quest and simulation to help students learn about the make-up and functioning of semiconductors as well as some applications. They will learn about p and n type materials, the pn junction, and what happens when an outside EMF source is added.

In this investigation, students will explore the question: Can there be life outside of Earth? Students will use planet hunting models to discover how scientists find new planets and perform simulated spectroscopic measurements to determine if the chemical requirements for life are present.

This article describes how primary school teachers and their school technology specialist use classroom blogging to engage children in reading and writing.

Student groups use the Java programming language to implement the algorithms for optical character recognition (OCR) that they developed in the associated lesson. They use different Java classes (provided) to test and refine their algorithms. The ultimate goal is to produce computer code that recognizes a digit on a scoreboard. Through this activity, students experience a very small part of what software engineers go through to create robust OCR methods. This software design lesson/activity set is designed to be part of a Java programming class.

In this video from Science City, meet a forensic scientist. She describes the steps to recover and analyze fingerprints to help solve crimes. She also discusses common attributes between art and science.

Through two lessons and five activities, students explore the structure and function of cell membranes. Specific transport functions, including active and passive transport, are presented. In the legacy cycle tradition, students are motivated with a Grand Challenge question. As they study the ingress and egress of particles through membranes, students learn about quantum dots and biotechnology through the concept of intracellular engineering.

Students are presented with a real-life problem as a challenge to investigate, research and solve. Specifically, they are asked to investigate why salt water helps a sore throat, and how engineers apply this understanding to solve other problems. Students read a medical journal article and listen to an audio talk by Dr. Z. L. Wang to learn more about quantum dots. After students reflect and respond to the challenge question, they conduct the associated activity to perform journaling and brainstorming.