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Does Radiation trapped in the earth's atmosphere serves to maintain a relatively constant and livable temperature?
Wiki User
∙ 11y ago
Yhep..
Wiki User
∙ 11y ago
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What Neptune temperature range?
It is relatively constant at 72K
How does your atmosphere keeps the earth at a constant temperature and protects us from harmful rays from the sun?
The atmosphere keeps earth at constant temperature. It is due to ozone protection which also avoids global warming.
What layer of the atmosphere has the most constant temperature?
the stratosphere, but at the top it gets a little hotter.
The tropical rain forests have a relatively constant temperature of about 250C year-round?
A+LS = True
What characteristics greatly added to vertebrate success in relatively dry environments?
A constant body temperature.
What portion of the atmosphere where temperature remains fairly constant?
It is the stratosphere atmospheric zone where the temperature stays fairly constant, at -60 degrees Celsius. The stratosphere layer contains the ozone layer.
What is the ability of water to maintain a relatively constant temperature and then prevent rapid changes in body temperature due to?
capacity to absorb/distribute heat :)
What effect is a phenomenon in which carbon dioxide and other gases trap solar radiation in the atmosphere causing global air temperatures to rise?
Carbon dioxide and other "greenhouse" gases are trapped in the atmosphere due to a phenomenon referred to as global warming. Global warming refers to the constant and steady rise of the Earth's temperature.
Does the body temperature of warm blooded animals depend on enviormental temperature?
No, warm-blooded animals have a built-in heat source that maintains a relatively constant body temperature independent of the environmental temperature.
How temperature of atmosphere changes with altitude?
The phenomenon of temperature change with altitude is primarily due to the way the atmosphere interacts with solar radiation and Earth's surface. Here's an explanation of this paradox: #thetruefacts2024 Incoming Solar Radiation: At ground level, the Earth's surface receives solar radiation directly. This radiation heats up the ground, which in turn warms the air in contact with it. As you ascend higher in the atmosphere, the intensity of the solar radiation remains relatively constant, but the atmosphere becomes thinner, leading to less molecular collisions that would otherwise help distribute the heat. This means that the air molecules at higher altitudes are less effective at trapping and retaining heat compared to those at lower altitudes. Adiabatic Cooling: As air rises, it expands due to the decreasing pressure. When air expands, it does work against the surrounding air, which causes it to cool down. This cooling process is called adiabatic cooling. Conversely, when air descends, it compresses, leading to adiabatic warming. The temperature changes with altitude due to a combination of factors related to the interaction of solar radiation, atmospheric composition, and dynamics. While it might seem paradoxical at first glance, understanding the underlying processes helps explain why temperatures generally decrease with increasing altitude in the troposphere.
What is the medical term meaning ability of an organism to maintain a relatively constant internal temperature?
Homeostasis is the term that describes an organism's ability to regulate and maintain a relatively constant internal temperature, regardless of external conditions.
What if there were no atmosphere?
Simply put, if there were no atmosphere, there would be no life on Earth! The atmosphere protects the surface from the intensity of the sun's radiation, because gases and aerosols (tiny suspended particles or droplets) intercept and absorb some of it. This is why the ozone layer (a part of the stratosphere that has a high level of ozone) is so important -- ozone, or O3, is particularly efficient at absorbing ultraviolet light.Another reason that the atmosphere is so important is that it keeps the temperature relatively constant at the surface. It may not seem like it sometimes, but the Earth's temperature is quite stable. Just how stable is apparent when compared to the moon. The moon has no atmosphere, and the temperature difference between areas in shade and areas illuminated by the sun is more than 250 degrees C (almost 500 degrees fahrenheit)!.That being said, an atmosphere does not guarantee life. Venus has an atmosphere, but it is extremely hot, thick, and carbon dioxide rich -- and did I mention the sulfuric acid clouds?
