/-/https/www.sciencebuddies.org/cdn/Files/21464/5/sb-logo.png){kind=logo}
/-/https/www.sciencebuddies.org/cdn/Files/21464/5/sb-logo.png){kind=logo}
Astronomy Projects, Lessons, Activities (65 results)
|
Select a resource
Sort by
|
Have you ever wanted to analyze data from a NASA spacecraft? In this science project you will use data from NASA's MESSENGER mission to measure the diameter and calculate the depth of impact craters on Mercury. You will then analyze that data for relationships between a crater's depth and diameter. This is your chance to
perform a science project as a NASA researcher would!
Read more
For an advanced science fair project, you can build your own telescope and learn how to use it to make observations of the night sky. Can you make your own observations to determine the orbital period of Jupiter's major moons?
The Dobsonian telescope, first built and popularized by astronomer John Dobson, is considered to be the best bang-for-your-buck if you want to build a good amateur telescope. The smaller the telescope's aperture the less expensive to build, but also the less…
Read more
How big a ruler would you need to measure the circumference of the Earth? Did you know that you can do it with a yardstick? (And you won't have to travel all the way around the world!)
Read more
Do you like to look up into the night sky? There are so many stars, it can be mind boggling! Some ancient people marked time by the changes in star patterns. We still use changes in constellation patterns to mark astronomical time. Do constellations change more in one hour, one day, one month, or one year?
Read more
The James Webb Space Telescope (JWST) has shown us some amazing images of space, like its first "deep field" image (Figure 1). The JWST sees the universe in the infrared part of the electromagnet spectrum, which is not visible to the human eye. How, then, does it produce color images like the one in Figure 1? Scientists must colorize the images, or apply "false color." They map different bands of the infrared spectrum to colors of visible light, resulting in an image humans can view. Luckily,…
Read more
Scientists have known for hundreds of years that sunspot activity waxes and wanes over a cycle that lasts approximately 11 years. In the 1970's, scientists discovered that the sun periodically blasts electrified gases into space, in huge outbursts called 'coronal mass ejections,' or CMEs. This project asks the question: do CMEs follow the solar sunspot cycle?
Read more
In astronomy, a transit (or astronomical transit) is a phenomenon when a celestial body passes directly between a larger body and the observer. As viewed from a particular vantage point, the transiting body appears to move across the face of the larger body, covering a small portion of it.
The word "transit" refers to cases where the nearer object appears smaller than the more distant object. Cases where the nearer object appears larger and completely hides the more distant object are known as…
Read more
Comets—big lumps of rock, ice, and frozen gases that orbit the Sun—are among the most amazing
heavenly objects seen in the night sky. The glowing tail behind the comet's nucleus inspires wonder.
But did you know that a comet's tail is evidence that it's melting? As a comet passes by the Sun on
its orbital path, it starts to melt. But do bigger comets melt faster than smaller comets? In this
astronomy science project, you will investigate how the size of the comet affects the…
Read more
Let's suppose you can take advantage of the Internet and get a 'pen pal' located a 1000 miles away in another city. On the same night, and at EXACTLY the same time 'Universal Time', make a CAREFUL observation of where the Moon is located with respect to the background stars. You should be able to discern a slight (about 1/2 the Moon's diameter) shift in position due to parallax. Then, with a little geometry, you could estimate the distance of the Moon during the full lunar cycle (Odenwald,…
Read more
Lesson Plan
Grade: 3rd-8th
2 reviews
"Blue Marble" © 2002 NASA Earth Observatory
Many of the misconceptions about our solar system are rooted in the fact that it is large and hard to comprehend. This kinesthetic activity will demonstrate concepts like rotation and orbit, clarify movement and direction, and help students understand why earthlings see different things in the sky.
Read more
|
/-/https/www.sciencebuddies.org/cdn/Files/20483/6/icon-flask.png){kind=icon}
/-/https/www.sciencebuddies.org/cdn/Files/4388/5/Astro_img127.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/2677/7/Astro_img061.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/2230/8/Astro_img007.gif)
/-/https/www.sciencebuddies.org/cdn/Files/20484/5/icon-gear.png){kind=icon}
/-/https/www.sciencebuddies.org/cdn/Files/19317/10/JWST-first-deep-field-main.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/2802/5/Astro_img086.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/14120/4/light-curve-exoplanet-WASP-10.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/4209/5/Astro_img118.jpg)
/-/https/www.sciencebuddies.org/cdn/Files/15156/5/earthrot_earth_nasa1200x900.jpg)
/-/https/img.youtube.com/vi/lj4DB5G3ZRE/0.jpg)
/-/https/img.youtube.com/vi/mabHwDuuLfU/0.jpg)
/-/https/img.youtube.com/vi/cm8SnV_u9bk/0.jpg)