it is said that the john Hancock can sway up to five feet... people who work at the top often can be heard complaining of motion sickness on a windy day !
it is said that the john Hancock can sway up to five feet... people who work at the top often can be heard complaining of motion sickness on a windy day !
Sara 'Sway' Wayland
6"2
Now with Bill Moyers - 2002 Sway the Course was released on: USA: 3 November 2006
"sway" by Bic Runga
To sway people's opinion of something, usually a political party or system.
to keep the building in place or to balance it out so it doesent sway as much
a. Sway helps to minimize wind damage. b. Sway makes the building stronger by compressing the weight into the ground. c. Sway is not better than resisting wind.
1.He was elected president of the second continental congress and helped sway other delegates votes toward independance. 2.He was also a leader of the Boston Chapter of the Sons of Liberty. He helped to fund them them with his inherited fortune. <(-_-)>
Depends on how tall it is. The Ex WTC building about 3 feet (91 cm) in each direction. The recently highest building in the world of Burj Khalifa about 5.5 feel (167cm).
Usually Everyday. During atlanta's winds, small earthquakes, and storms, it will sway. Usually no more than 1 foot. But in 2008, the building swayed more than 2 feet in a tornado
The Golden Gate needs to sway so that it does snap. Think of the idea of rigid flexibility in the construction of bridges, skyscrapers and even the St. Louis Arch. The Arch can sway 18 inches in high winds. If you were to go up into the John Hancock building in Chicago and went in the restroom on the upper floors look in the toilets and you will see the water moving. For a structure to stand there does need to be a rigid structure but built in the structure a small degree of flexibility. There needs to be a little give to absorb some of the energy or it will snap. Look in nature and you will see trees that have the ability to flex with the force of the winds. The key again is the internal structure, foundation and a degree of flexibility.
The Golden Gate needs to sway so that it does snap. Think of the idea of rigid flexibility in the construction of bridges, skyscrapers and even the St. Louis Arch. The Arch can sway 18 inches in high winds. If you were to go up into the John Hancock building in Chicago and went in the restroom on the upper floors look in the toilets and you will see the water moving. For a structure to stand there does need to be a rigid structure but built in the structure a small degree of flexibility. There needs to be a little give to absorb some of the energy or it will snap. Look in nature and you will see trees that have the ability to flex with the force of the winds. The key again is the internal structure, foundation and a degree of flexibility.
Any building that wish to survive a substantial earthquake should be able to sway. Most buildings in Japan are constructed with isolation bearings, that allow the buildings to sway from side to side during an earthquake.
Winds of 50 MPH will cause it to sway up to 3 inches.
They do. They also have sytems and reinforcements to minimize swaying in high winds.
The cast of Sway - 2001 includes: John Michael Herndon as Bill Austin Sterling as Steve Diane Witter as Claire
it sways