Is where the climate is warmer the in surrounding rural areas
one factor could be the specific heat capacity of the material of say a city (concrete) or the ocean (water)
Urban areas create heat islands due to the abundance of concrete and asphalt surfaces that absorb heat, as well as the lack of green spaces that would help to cool the environment. Buildings and infrastructure in urban areas also trap heat, leading to higher temperatures compared to surrounding rural areas. The heat generated from human activities and increased energy use further contribute to the heat island effect.
they create from the heat coming from atmosphere and then rising up in high level
Urban areas tend to be warmer than surrounding rural areas, a phenomenon known as the urban heat island effect. This is due to factors such as heat produced by vehicles and buildings, reduced vegetation, and increased concrete and asphalt surfaces in urban areas that absorb and retain heat. As a result, urban areas often experience higher temperatures compared to rural areas.
Cities can create microclimates due to the urban heat island effect, where buildings, pavement, and other infrastructure absorb and retain heat, leading to higher temperatures than surrounding rural areas. Urban areas also have less vegetation, which can affect humidity levels and precipitation patterns. Additionally, pollution from cars and industry in cities can impact air quality and overall climate conditions.
Cities can create microclimates due to heat absorption from buildings and roads, known as the urban heat island effect. Tall buildings can block air flow, trapping pollution and creating pockets of warmer air. Urban areas can also have higher humidity levels due to increased pavement surfaces reducing natural water retention.
Cities create microclimates by absorbing and radiating heat, altering wind patterns, and generating their own weather systems through pollution or urban development. Buildings, roads, and other structures can also influence temperature and precipitation patterns in localized areas within a city.
Urban climates tend to be warmer than rural climates due to the heat-absorbing materials in cities like concrete and asphalt, known as the heat island effect. Urban areas also experience less wind and more air pollution, impacting air quality. In contrast, rural areas typically have more open space, vegetation, and less human activity, leading to cooler temperatures, cleaner air, and more variability in weather patterns.
In short, I think urban areas have a high temparature due to pollution and high population density.
Urban areas contribute to localized convective lifting by producing more heat than non urban areas. Thanks for asking, ChaCha
1. Large cities affect local climate by tending increase the warmth. They clear forests and put in heat absorbing concrete and asphalt. They're the physical heat put out by air conditioners and other machinery. Concrete and asphalt in large masses create what is called a heat island effect. This can create a false drought condition because the rain and storm activity will go around the false high.
Monthly rainfall is greater downwind of cities, partially due to the UHI. Increases in heat within urban centers increases the length of growing seasons, and decreases the occurrence of weak tornadoes. The UHI decreases air quality by increasing the production of pollutants such as ozone, and decreases water quality as warmer waters flow into area streams, which stresses their ecosystems. Not all cities have a distinct urban heat island. Mitigation of the urban heat island effect can be accomplished through the use of green roofs and the use of lighter-colored surfaces in urban areas, which reflect more sunlight and absorb less heat. Despite concerns raised about its possible contribution to global warming, comparisons between urban and rural areas show that the urban heat island effects have little influence on global mean temperature trends.
A microclimate is a local atmospheric zone where the climate is different from the surrounding area. They exist, for example, near bodies of water which cool the local atmosphere, or in heavily urban areas where brick, concrete, and asphalt absorb the sun's energy, heat up, and radiate that heat to the ambient air.
Yes most definately, one of the worst weather disasters in the history of the United States was the 1995 Chicago Heat Wave. The 1995 Chicago heat wave led to approximately 600 heat-related deaths over a period of five days. The temperatures soared to record highs in July with the hottest weather occurring from July 12 to July 16. The high of 106° F (41° C) on July 13th. A contributing factor to the heat wave is an effect called an urban heat island. Urban heat islands are caused by the concentration of buildings and pavement in urban areas, which tend to absorb more heat in the day and radiate less heat at night into their immediate surroundings than comparable rural sites. Therefore, built-up areas get hotter and stay hotter. This is an extreme example to answer your question but it is not totally uncommon to have a few days near or even above the 100 degree mark every other summer or so.
Concrete jungles, or Urban Heat Islands, as they are known, hold the heat better. Cities, especially cities with few parks and green belts, are usually warmer than the countryside. This, however, does not affect global warming. Globally temperatures are averaged, and the cooler countryside balances out the warmer cities. Scientists measuring the temperature are always careful to make sure urban heat islands do not influence the temperature trends, which are increasing at the same rate in cities and countryside.
There is hardly any climatic changes between rural and urban regions as climatic changes take place over a long period of time except for the weather conditions like temperature that may vary in localized regions.
One way is that our cities create heat islands that affect the weather. Here in Phoenix, the heat island that the city gives off is causing monsoons to move in later and later in the day.
"Create distinct global wind systems that transport colder air to warmer areas and warmer air to colder areas." p.305 earth science book California edition National Geographic
usually food from litter and landfills and sometimes the free heat and habitat of a building. some animals though are trapped in cities an become pests.
they don't, that's why they are called heat 'islands' the temperature increase is only applicable to the area the heat island COVERS.