About Us
Our Team
Our Impact
FAQs
News
Contact Us
Corporate Programs

Skyscrapers


Page Views: 6310

Email This Lesson Plan to Me
Email Address:
Subscribe to Newsletter?
Log in to rate this plan!
Overall Rating:
(5.0 stars, 1 ratings)


Keywords: architecture, skyscrapers, building
Subject(s): Social Studies, Math, Physics
Grades 3 through 8
School: Roycemore School, Evanston, IL
Planned By: Elizabeth Shutters
Original Author: Elizabeth Shutters, Evanston
Activities:

1. (2-3 minutes) Help students brainstorm the names of some famous skyscrapers (Empire State Building, Sears Tower, Petronas Towers, etc.).

2. (2-3 minutes) Have a brief discussion about why people build such giant buildings. For example, they are efficient in crowded cities because they provide maximum office or living space while taking up a small amount of ground. They have also become cultural or industrial icons and a source of pride for the city in which they are found.

3. (3-4 minutes) Briefly discuss the history of skyscrapers. See http://www.pbs.org/wgbh/buildingbig/skyscraper/basics.html.
<br>4.
(3-4 minutes) Brainstorm the factors that engineers need to consider when designing and building skyscrapers. These could include the weight of the building, things that will be in the building, wind, earthquakes, and temperature. Make a list with Inspiration software.

5. (12-15 minutes) The forces that act on skyscrapers are called loads. Explore a few of these loads in greater detail by conducting these activities:
- Dead Load: the weight of the structure itself is called the dead load. The force that this weight puts on the lower columns of a skyscraper is called compression. Demonstrate compression by pressing on the end of spaghetti noodles.
- Wind Load: wind can cause a skyscraper to bend, causing tension. Tension stretches material apart and it may break. Demonstrate tension by bending and breaking a spaghetti noodle.
- Reinforce the ideas of compression and tension: Give small groups of students a small bunch of noodles and have them slowly bend them in half. The bottom part of the group of noodles is experiencing compression while the top part is experiencing tension. Explain that materials used in skyscrapers must be strong against both of these forces to withstand dead load and wind load.
- Explore the PBS Forces and Loads labs on the projector from http://www.pbs.org/wgbh/buildingbig/lab/index.html.

6. (5 minutes) Have students pick up the different building materials (wood, brick, concrete, steel, etc.). Ask them to decide which material they think is the strongest in compression and which is the strongest in tension. Discuss advantages and disadvantages of each type of material.

7. (5-7 minutes) “Test” a few of the materials online using the PBS Materials lab (link above).

8. (3-5 minutes) Do the Skyscraper Challenges (or at least Location 1 - Chicago) at http://www.pbs.org/wgbh/buildingbig/skyscraper/challenge/index.html. Students will decide on the best materials for a building in Chicago, New York, and Los Angeles.

9. (5-6 minutes) Discuss the factors that may affect a new school building in our town (wind?, dead load?, earthquakes?). The group should decide which of the materials studied should be used in the new building. They might also take with them the idea of adding braces or other extras to help the structure.

10. If there is extra time, discuss the questions below or explore the PBS Building Big site further.



Discussion Questions

1. How do engineers make skyscrapers strong enough to withstand earthquakes, high winds, and severe changes in temperature?
2. If you could visit any skyscraper in the world, which one would you pick? Why?
3. How do you think a skyscraper enhances a city? Why does it instill pride in a city’s residents? Try to find some evidence to support your ideas.
4. If you could design a new skyscraper for your town or city, what would it look like? What material(s) would you use to create it? What design elements might you use that reflect your town’s history, culture, or icons?
5. What are some dangers involved in the construction of skyscrapers? What precautions are taken to minimize the risks?
6. Do you think skyscrapers are a good way to deal with space constraints in urban areas? Do you think the advantages of skyscrapers outweigh the disadvantages? Provide evidence to support your answer.
Comments
This lesson was part of a thematic unit on architecture. Please visit http://www.roycemoreschool.org/teachers/msthemedays/architecture/index.html for more lesson plans from this unit.
Cross-Curriculum Ideas
You could use this lesson in conjunction with a unit on building materials in an elementary science class, or in middle school physics. The social implications of skyscrapers could be explored further in a social studies course.
Follow-Up
After completing this lesson, teams of students "designed" a new building for our school. A local architect came in to look at their ideas and provide feedback.
Links: Architecture Theme Days
PBS Building Big
Materials: Whiteboards, Mobile Labs, Projectors, Projector Screens, Computer Accessories, Middle, Social Studies, Inspiration, Web Page, Internet Services
Other Items: 2 boxes uncooked spaghetti noodles, $3.00 each, total of $6.00
1 piece of wood, $0 each, total of $0.00
1 piece of steel, $0 each, total of $0.00
1 piece of concrete, $0 each, total of $0.00
1 piece of plastic, $0 each, total of $0.00
1 piece of brick, $0 each, total of $0.00