Dr. Veronica Bindi presents When is the Best Time to Send Astronauts to Mars? to middle-school students and teachers.
When is the Best Time to Send Astronauts to Mars?
When is the Best Time to Send Astronauts to Mars? was a workshop for students and teachers that explored the range of questions that must be answered and risks that must be overcome to send astronauts to the red planet.
Explorers: The Human Desire for
Exploration Leads to Discovery
Watch Module 1!
Scientific Research Activities
TED-Ed - How Cosmic Rays Help Us Understand the Universe - Veronica Bindi
We only know 4% of what the universe is made up of. Can we also know what lies beyond our galaxy ... and if there are undiscovered forms of matter?
Presentation: Introduction to Cosmic Rays - Download
This presentation provides background information about the importance of studying cosmic rays, about cosmic ray detection techniques, and about the source of these fascinating particles.
QuarkNet and AMS-02 Activities for the Classroom
In this activity, you will use the proton rate (i.e. the number of protons per second arriving at Earth) measured by the Alpha Magnetic Spectrometer (AMS-02) to explore how cosmic rays are influenced by the Sun - an effect called solar modulation.
You will use measurements of protons with different energies to investigate whether solar modulation affects particles of all energies in the same way or if it is an effect that varies with energy.
In this activity, you are challenged to identify particles accelerated by the Sun, called Solar Energetic Particles measured by Alpha Magnetic Spectrometer (AMS-02) a particle detector flying onboard the International Space Station (ISS).
After you have found your SEP event, you will compare it with other teams’ events to discover which SEP event is the most intense, which has the highest energy SEPs, and more.
Study Cosmic Rays with Neutron Monitors
Advanced Level (Suggested for grades 9-12)
In this activity, you will learn about cosmic ray properties as measured by neutron monitors. There is a worldwide network of NMs that are used by scientists to monitor cosmic rays. We can use this network to measure a number of known cosmic ray properties and make predictions about what we can measure with our particle detector.
First Explorer Particle Detector Project
STEM Pre-Academy partnered with Dr. Veronica Bindi, Associate Professor, Department of Physics at the University of Hawai‘i at Mānoa on the First Explorer Particle Detector Project. The project’s objective was to design an innovative, low-cost particle detector for use in school science applications.
Under Dr. Bindi’s direction and with guidance from Davin Sasaki (Project Manager, STEM Pre-Academy), three UHM Physics and Astronomy undergraduate student interns from Italy and France teamed up with university researchers and retired science and physics teachers to successfully develop and test a prototype detector.
The prototype was made using a Raspberry Pi mini-computer, a desktop computer webcam, and various other off-the-shelf parts and stands as a successful proof-of-concept for a low-cost particle detector.
The prototype is currently being prepared for demonstration and possible research applications. Stay tuned!
Check out these photos from the project. (Click to enlarge!)