Educator Guide: How Far Away Is Space?

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Activity Notes

See tips for remote instruction in the Management section.

Overview

In this activity, students will gain a better understanding of where space begins. They will use a map scale to determine the relative distance to space from the surface of a map. They will then stack coins the appropriate height to mark the edge of space.

Materials

State or county maps with scale distance bars (can be printed or displayed from online maps) OR download Los Angeles area map (PDF)

Various coins, metal washers, or other thin stackable items

Ruler with millimeter markings

Management

Students will need printed maps with a scale bar displayed. Maps can be printed from online mapping services. Be sure to select the printing options that include scale bars. You can also download and print this Los Angeles area map.
Local maps, such as city maps, may have scale bars that are too short (i.e., show too few miles per length of the scale bar) making it impractical to stack coins high enough to display the scale distance to space accurately. Maps covering a larger area work best.
Prior to the lesson, identify several landmarks, cities, or other known features that are about 62 miles from your school. These will be used as a distance reference.

Tips for Remote Instruction

Students can print a map at home, or place a sheet of paper on a computer screen and gently trace the outline of a map and the scale bar.
Students using tablet computers can open a map on the device, lay it flat, and stack coins on the screen. In this case, it may help to take a screengrab of the map and access it on the device's photo gallery, so that students don't accidentally change the interactive map view.

Background

We often think of space as being very far away. Planets are many millions or even billions of miles away, and stars are so far away that their distances are measured in light years. (A light year is the distance light travels in a year and is equal to six trillion miles.) Yet the edge of space â or the point where we consider spacecraft and astronauts to have entered space, known as the Von Karman Line â is only 62 miles (100 kilometers) above sea level.

Procedures

Discussion

Why do you think getting to space is so difficult when itâs only 62 miles away?
Answer: Space is 62 vertical miles away. It takes a lot of energy to overcome gravity for that distance and gain the speed required to stay in orbit (approximately 17,500 miles per hour) once you've arrived.
How would the distance to space be different from Denver compared with Los Angeles?
Answer: The distance to space from Denver is approximately 61 miles while it's about 62 miles to space from Los Angeles. This is because Denver is 1 mile above sea level while Los Angeles is close to sea level.

Assessment

Students should be able to correctly measure the scale distance bar on the map in millimeters.
Students should be able to correctly determine how far 62 (approximately 60) scale miles spans in millimeters.
Students should be able to correctly stack coins to the scale height representing approximately 60 miles.

Extensions

Ask students to make a stack of coins reaching the altitudes of the following objects orbiting Earth:
International Space Station: 250 miles (400 km)
Hubble Space Telescope: 340 miles (550 km)
Ask students to determine how high a stack of coins would need to be to represent the distance from Earthâs surface to the Moon, which orbits 238,855 miles (384,400 kilometers) away.
Ask students to determine how high a stack of coins would need to be to represent the distance from Earthâs surface to the James Webb Space Telescope, which will be stationed about 1,000,000 miles (1,600,000 kilometers) away.
Give students the opportunity to explore additional scale distance activities from the list below.

Solar System Bead ActivityStudents create a scale model of the solar system using beads and string.Grades 1-6Time 30-60 mins
Planetary Travel TimeStudents will compute the approximate travel time to planets in the solar system using different modes of transportation.Grades 4-6Time 30-60 mins
Solar System ScrollStudents predict the scale of our solar system and the distance between planets, then check their answers using fractions.Grades 5-8Time Less than 30 mins
Create a Solar System Scale Model With SpreadsheetsIn this activity, students use spreadsheet software and their knowledge of scale, proportion and ratios to develop a solar system model that fits on a playground.Grades 5-12Time 30-60 mins
Kinesthetic Radial Model of the Solar SystemStudents model the position of the planets around the Sun and then model viewing them from Earth on any given date.Grades 6-12Time 30-60 mins
Modeling the Earth-Moon SystemStudents learn about scale models and distance by creating a classroom-size Earth-Moon system.Grades 6-8Time 30-60 mins
Make a Scale Solar SystemUse beads and string, sidewalk chalk, or your own creative choice of materials to build a scale model of planet sizes or distances in the solar system.Grades 2-12Subject Mathematics

Explore More

As a seasoned enthusiast with a deep understanding of space-related concepts, I can confidently delve into the intricacies of the student project activity you've shared. My expertise stems from a comprehensive knowledge of space exploration, astronomical measurements, and the physics involved in reaching and navigating space.

Firstly, the activity aims to provide students with a practical understanding of the distance to space using map scales and physical representations. The key concepts involved include:

Scale Distance and Maps:
- Students are encouraged to use state or county maps with scale distance bars. The scale distance bar is crucial for understanding the relative distances represented on the map.
- The choice of larger area maps is emphasized, as local maps may have scale bars that are too short for practical coin stacking.
Von Karman Line and Edge of Space:
- The Von Karman Line is introduced as the boundary where space begins, located at 62 miles (100 kilometers) above sea level.
- The activity underscores the contrast between the vast distances within our solar system (measured in millions or billions of miles) and the relatively short distance to the edge of space.
NASA's Space Shuttle and International Space Station Altitudes:
- Historical context is provided by mentioning NASA's Space Shuttle operating at altitudes ranging from 190 to 330 miles above sea level.
- The International Space Station is noted to maintain an orbit approximately 250 miles above sea level.
Hands-On Measurement and Coin Stacking:
- Students are tasked with measuring the length of the map's scale bar in millimeters.
- Using this measurement, they calculate the equivalent millimeters for 62 miles on the scale bar.
- The practical application involves stacking coins on the map to represent the distance from the surface of the Earth to space.
Discussion on Space Travel Challenges:
- The discussion section addresses the difficulty of reaching space despite its seemingly close proximity (62 miles) due to the energy required to overcome gravity and achieve orbital speed.
Assessment and Extensions:
- Assessment criteria include the accurate measurement of the scale distance bar, correct determination of the millimeter equivalent for 62 miles, and the proper stacking of coins to represent the calculated distance.
- Extension activities involve scaling other celestial distances, such as the altitudes of the International Space Station, Hubble Space Telescope, Moon, and James Webb Space Telescope.

In conclusion, this activity provides a hands-on approach to comprehending the scale of space, aligning with broader educational goals in science, mathematics, and geography. The incorporation of real-world measurements and representations enhances students' grasp of astronomical concepts and fosters a tangible connection to the vastness of space.

Educator Guide: How Far Away Is Space? | NASA/JPL Edu (2024)