The best course of action to take sometimes isn’t clear until you’ve listed and considered your alternatives. The following paragraphs should help clue you in to what the experts think is significant.
It seems like new information is discovered about something every day. And the topic of skyscrappers is no exception. Keep reading to get more fresh news about skyscrappers.
The term “skyscraper” was coined in the 1880s, shortly after the first tall buildings were constructed in the United States — but the history of tall buildings dates back hundreds of years. Since the Middle Ages, engineers have engaged in a battle for the sky.
San Gimignano towers
Before there were skyscrapers, there were towers.
Made of heavy stone, towers had thick, sturdy walls, but the rooms were dark and cramped — too many windows would have weakened the structure.
Notre Dame Cathedral
Soon Gothic cathedrals joined the quest for height.
Long, stone arms, called flying buttresses, supported the cathedral’s heavy weight, allowing the walls to be filled with colorful glass windows.
First steel skyscraper:
Home Insurance Building
With steel came the first modern skyscrapers.
During the Industrial Revolution, engineers began experimenting with two new materials — iron and steel. The 10-story Home Insurance Building in Chicago was the first tall building to be supported by a steel skeleton of vertical columns and horizontal beams. But even with windows, the closely spaced columns and deep beams made rooms in the Home Insurance Building feel tight and cramped.
Who wants to climb all those stairs?
In 1857, the installation of the first passenger elevator in the Haughwout Department Store in New York City made it possible and practical to construct buildings more than four or five stories tall.
Check out the forces that act on skyscrapers!
New structural designs made skyscrapers even lighter and stiffer.
As skyscrapers grew taller and taller, engineers were faced with a new enemy: wind. Today’s tallest skyscrapers, which are almost 1,500 feet tall, must be 50 times stronger against wind than the typical 200-foot buildings of the 1940s.
How do engineers design skyscrapers to resist wind?
Today, the sky’s the limit!
As architects and engineers experiment with new styles and building methods, taller and more innovative structures are springing up around the world. The tallest buildings in the world, the Petronas Towers in Malaysia, are connected by a flexible skybridge on the 42nd floor — a design that improves the circulation of people between the towers and provides an escape route from one tower to the other in case of emergency.
Take time to consider the points presented above. What you learn may help you overcome your hesitation to take action.