Define and run your own hands-on experiment! Gather data using two Vernier or Pasco sensors and then analyze the data in the CODAP environment. This activity requires sensors and the…
Define and run your own hands-on experiment! Gather data using a Vernier or Pasco sensor and then analyze the data in the CODAP environment. This activity requires sensors and the…
In this activity, you will monitor temperature changes as energy is moved from batteries to holiday bulbs and resistors.
Learn that temperature measures average kinetic energy, and heat is the transfer of energy from hot systems to cold systems. Consider what makes a good conductor….
Learn how the code on a strand of DNA can be used to make a protein.
Being able to control the movement of electrons is fundamental for making all electronic devices work. Discover how electric and magnetic fields can be used to move electrons around. Begin…
In this activity, you will explore the frequency, wavelength, amplitude and velocity of sound waves.
Intermolecular attractions are responsible for everything from the temperatures at which substances boil to the power of your immune system in recognizing pathogens and the climbing ability of geckos! Feel…
The temperature at which substances boil is determined by intermolecular attractions. Explore how these forces affect a substance’s boiling point….
This activity introduces fundamental characteristics of biological macromolecules. It supports the short version of the Lipids and Carbohydrates activity as well as the Proteins and Nucleic Acids activity. This is…