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Wind speeds up between tall buildings in a city due to the Venturi effect, which occurs when air is pushed through a narrow space. The buildings create a channel that funnels the wind, increasing its speed as it moves through the confined space. This effect is similar to how air speeds up when squeezed through a narrow opening.
The wind speeds up between tall buildings due to a phenomenon called the Venturi effect, which occurs when a fluid (in this case, air) is forced through a narrow space, increasing its velocity. This narrowing of space between buildings causes the air to accelerate to maintain the same flow rate.
Bungale S. Taranath has written: 'Structural analysis and design of tall buildings' -- subject(s): Tall buildings, Design and construction 'Structural analysis and design of tall buildings' -- subject(s): Tall buildings, Structural analysis (Engineering), Design and construction 'Wind and Earthquake Resistant Buildings'
No: "sway" is the verb, and it does not have a direct object. Examples of sentences with direct objects are "Tall buildings cast shadows" and "Tall buildings blocked the view."
because the wind blows who is asking this dumb question that i dont know
when wind is channeled into a narrow area increasing wind speed. for example between buildings
Yes, buildings can affect temperatures in urban areas by absorbing and retaining heat, a phenomenon known as the urban heat island effect. Tall buildings can also create wind tunnels that can increase temperatures by trapping warm air in certain areas.
Building a weather station close to tall trees and buildings can lead to inaccurate readings due to interference with wind flow and exposure to shading. Trees can block sunlight and trap moisture, affecting temperature and humidity measurements. Buildings can create turbulence and alter wind direction, impacting accurate wind speed recordings.
C. W. Newberry has written: 'The response of buildings to sonic boom' 'The nature of gust loading on tall buildings' -- subject(s): Aerodynamics, Buildings, Aerodynamic load, Wind-pressure
Because of the constant wind, tall buildings are unwise in Antarctica. Maximum height may be up to three stories, and most research stations have buildings of this height.
erosion doesn't effect wind, wind causes erosion
A residential wind turbine tower typically needs to be at least 30 feet tall to place the turbine above trees and nearby obstructions that may block wind flow. However, the ideal height can vary depending on local wind conditions and obstacles. Most residential wind turbines are effective with tower heights between 80 to 120 feet.