Archived Problems

Sorted by Category

+This Week's Problems

Stars

Black Holes - VI [PDF] - Grade level: 7-10 Tidal forces are an important gravity phenomenon, but they can be lethal to humans in the vicinity of black holes. This exercise lets students calculate the tidal acceleration between your head and feet while standing on the surface of Earth...and falling into a black hole. [Skills: scientific notation, working with equations in one variable to first and second power]

Black Holes - V - Chandra/XMM [PDF] - Grade level: 7-10 Students explore how Kepler's Third Law can be used to determine the mass of a black hole, or the mass of the North Star: Polaris. [Skills: scientific notation, working with equations in one variable to first and second power]

Black Holes - IV - Chandra/XMM [PDF] - Grade level: 7-10 Students explore how much energy is generated by stars and gas falling into black holes. The event horizon radius is calculated from a simple equation, R = 2.83 M, and energy is estimated from E = mc^2. [Skills: scientific notation, working with equations in one variable to first and second power]

Black Holes - III [PDF] - Grade level: 8-12 Students learn about how gravity distorts time near a black hole and other massive bodies. [Skills: Simple linear equations, scientific notation]

Black Holes - II [PDF] - Grade level: 8-12 Students learn about how gravity distorts time and causes problems even for the Global Positioning System satellites and their timing signals. [Skills: Simple linear equations, scientific notation]

Black Holes [PDF] - Grade level: 8-12 Students learn about the most basic component to a black hole - the event horizon. Using a simple formula, and scientific notation, they examine the sizes of various kinds of black holes. [Skills: Simple linear equations, scientific notation]

GALEX - A Star Sheds a Comet Tail! [PDF] - Grade level: 8-10 The GALEX satellite captured a spectacular image of the star Mira shedding a tail of gas and dust nearly 13 light years long. Students use the GALEX image to determine the speed of the star, and to translate the tail structures into a timeline extending to 30,000 years ago. [Skills: Image Scaling, Unit Conversion, Calculating Speed from Distance and Time]

Star light...Star bright - A question of magnitude! [PDF] - Grade level: 9-11 Since the time of the ancient Greek astronomer Hipparchus, astronomers have measured and cataloged the brightness of stars according to the 'apparent magnitude scale'. This activity lets students experience this peculiar numbering system where bright stars have small numbers (even negative: our sun is a -26 magnitude!) and faint stars have large numbers (faintest stars are +29 magnitudes). Students will calculate the brightness differences between stars using multiplication and division. Working with the number line will be a big help and math review!

How many stars are there? [PDF] - Grade level: 9-11 For thousands of years, astronomers have counted the stars to determine just how vast the heavens are. Since the 19th century, 'star gauging' has been an important tool for astronomers to assess how the various populations of stars are distributed within the Milky Way. In fact, this was such an important aspect of astronomy between 1800-1920 that many cartoons often show a frazzled astronomer looking through a telescope, with a long ledger at his knee - literally counting the stars through the eyepiece! In this activity, students will get their first taste of star counting by using a star atlas reproduction and bar-graph the numbers of stars in each magnitude interval. They will then calculate the number of similar stars in the sky by scaling up their counts to the full sky area.

Measuring the size of a Star Cluster[PDF] - Grade level: 9-11 Astronomers often use a photograph to determine the size of astronomical objects. The Pleiades is a famous cluster of hundreds of bright stars. In this activity, students will determine the photographic scale, and use this to estimate the projected (2-D) distances between the stars in this cluster. They will also use internet and library resources to learn more about this cluster.

Discovering the Milky Way by Counting Stars. [PDF] - Grade level: 9-11 It is common to say that there are about 8,000 stars visible to the naked eye in both hemispheres of the sky, although from a typical urban setting, fewer than 500 stars are actually visible. Students will use data from a deep-integration image of a region of the sky in Hercules, observed by the 2MASS sky survey project to estimate the number of stars in the sky. This number is a lower-limit to the roughly 250 to 500 billion stars that may actually exist in the Milky Way.

Interstellar Distances with the Pythagorean Theorem [PDF] - Grade level: 9-11 If you select any two stars in the sky and calculate how far apart they are, you may discover that even stars that appear to be far apart are actually close neighbors in space. This activity lets students use the Pythagorean distance formula in 3-dimensions to explore stellar distances for a collection of bright stars, first as seen from Earth and then as seen from a planet orbiting the star Polaris. Requires a calculator and some familiarity with algebra and square-roots.

Why do stars rise in the East? [PDF] Grade level 9-10 Students will follow a step-by-step geometric construction procedure to create a figure, and then use basic Euclidean postulates to prove that, because Earth rotates from west to east, stars must rise in the east and set in the west, and that the angle turned by the Earth equals the amount of apparent sky position change by a fixed star in the sky.