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What five processes determine climate?
The five processes that determine climate are solar radiation, atmospheric circulation, ocean currents, topography, and greenhouse gas concentrations. Solar radiation drives temperature and weather patterns, while atmospheric circulation redistributes heat and moisture around the globe. Ocean currents influence climate by transporting warm and cold water, affecting coastal temperatures. Topography impacts local climates through elevation and landforms, and greenhouse gases trap heat in the atmosphere, contributing to global warming and climate variability.
What is the engine that drives atmospheric circulation?
The engine that drives atmospheric circulation is the sun - which provides the energy for the circulation.
What is a hypothesis of weather and climate accept the energy of the sun?
One hypothesis is that the distribution of solar energy received by the Earth's surface drives the global atmospheric circulation patterns, which in turn influence weather and climate patterns. This energy from the sun provides the heat necessary to drive processes such as evaporation, convection, and winds, which play a key role in shaping weather and climate conditions.
How the heat of vaporization might influence climate and weather systems?
The heat of vaporization plays a role in the formation of clouds and precipitation. When water vapor condenses into liquid water, it releases heat, which can influence atmospheric circulation and weather patterns. This process is important for the distribution of heat energy in the atmosphere and the formation of weather systems.
What is the circulation of tropical air?
The circulation of tropical air is driven by the Hadley cell, a large-scale atmospheric circulation pattern that transports warm air from the tropics towards the poles and cold air from the poles towards the tropics. This circulation plays a key role in shaping global weather patterns and climate.
What five processes determine climate?
The five processes that determine climate are solar radiation, atmospheric circulation, ocean currents, topography, and greenhouse gas concentrations. Solar radiation drives temperature and weather patterns, while atmospheric circulation redistributes heat and moisture around the globe. Ocean currents influence climate by transporting warm and cold water, affecting coastal temperatures. Topography impacts local climates through elevation and landforms, and greenhouse gases trap heat in the atmosphere, contributing to global warming and climate variability.
What is the study of earth's atmosphere known as?
The study of Earth's atmosphere is known as meteorology. It focuses on understanding and predicting weather patterns, climate trends, atmospheric circulation, and other atmospheric phenomena.
Can blocking atmospheric or oceanic circulation patterns could drastically change climate?
true source: Switched on Schoolhouse Earth science
What is the engine that drives atmospheric circulation?
The engine that drives atmospheric circulation is the sun - which provides the energy for the circulation.
Who creates the desert climate of Mexico?
Both atmospheric circulation and rain shadow are the forces behind the Sonoran and Chihuahuan deserts in Mexico, respectively.
Why are the oceans important to weather?
Oceans play a critical role in regulating Earth's climate and weather patterns. They store and release heat, influence atmospheric circulation, and contribute to the formation of weather systems such as hurricanes. The exchange of heat and moisture between the oceans and the atmosphere is essential for maintaining the balance of the global climate system.
What is the role of advection heat in the process of atmospheric circulation?
Advection heat plays a key role in atmospheric circulation by transferring heat horizontally through the movement of air masses. This process helps distribute heat across different regions, influencing weather patterns and climate.
What is a hypothesis of weather and climate accept the energy of the sun?
One hypothesis is that the distribution of solar energy received by the Earth's surface drives the global atmospheric circulation patterns, which in turn influence weather and climate patterns. This energy from the sun provides the heat necessary to drive processes such as evaporation, convection, and winds, which play a key role in shaping weather and climate conditions.
What has the author Chandrakant M Bhumralkar written?
Chandrakant M. Bhumralkar has written: 'A survey of parameterization techniques for the planetary boundary layer in atmospheric circulation models' -- subject(s): Atmospheric circulation, Boundary layer (Meteorology), Mathematical models 'Parameterization of the planetary boundary layer in atmospheric general circulation models' -- subject(s): Atmospheric circulation, Boundary layer (Meteorology), Mathematical models 'Relation between air-sea exchange over the Arabian Sea and the fluctuations of the Western Indian summer monsoon' -- subject(s): Climate, Monsoons, Ocean-atmosphere interaction, Oceanography
What is climate in the sea?
The climate of the area is tropical, but rainfall differs with elevation, size, and water currents
How the heat of vaporization might influence climate and weather systems?
The heat of vaporization plays a role in the formation of clouds and precipitation. When water vapor condenses into liquid water, it releases heat, which can influence atmospheric circulation and weather patterns. This process is important for the distribution of heat energy in the atmosphere and the formation of weather systems.
What is the circulation of tropical air?
The circulation of tropical air is driven by the Hadley cell, a large-scale atmospheric circulation pattern that transports warm air from the tropics towards the poles and cold air from the poles towards the tropics. This circulation plays a key role in shaping global weather patterns and climate.
