Skyscrapers exist in every major ci

Skyscrapers exist in every major city in the world. From New York City, Shanghai, Kuala Lumpur, Beijing, Chicago or Dubai, you will come across many tall skyscrapers. Only a century ago, it was virtually impossible to build a structure more than five or six stories high. In 19th century stone or brick weight on it from the floors above. This weight limited how high engineers could build. Today, different building techniques and technologies are used. But why don't very tall skyscrapers collapse under their own immense weight?

Elevator Technology
The most necessary invention to make a tall building was the elevator shaft. In the mid 1800s, the first passenger elevator was installed in a New York Department Store. At the time, it was very difficult to conveniently move thousands of people up and down a building that was over 20 stories tall. Without elevators, tall building might never have been built.

Foundation and Steel Skeletons
The first step to constructing askyscraper is digging a big foundation hole. When the Petronas Twin Towers were built in Kuala Lumpur, Malaysia, engineers had to shove massive concrete pillars 60~120 meters into the Earth's bedrock layer. The secord step to building a skyscraper is making its steel skeleton. This is just like the frame of a car. Strong iron or metal beams are welded to create long vertical columns. At each floor level, these vertical columns are connected to horizontal beams. The third step also involves building the steel skeleton. This steel frame has outer walls (or curtain walls) that support almost all the weight of the building. The weight from all the floors gets transferred directly to the vertical columns. This sends forces through the steel skeleton down into the building's base. In modern skyscrapers, these exterior curtain walls are made almost entirely of glass which gives more floor space for tenants to live or work. Once the skeleton has been built, the fourth step is much easier. The floors are then added to a new skyscraper, often one to two a day. A fifth and final step is stabilizing the skyscraper. Some buildings have huge weights controlled by computers. The weights gilde back and forth in the opposite direction than that which the building moves during an earthquake or high winds.