i don't know or care
The Coriolis force, caused by the Earth's rotation, is responsible for changing the direction of air in global circulation patterns. This force deflects moving air to the right in the Northern Hemisphere and to the left in the Southern Hemisphere, leading to the distinct wind patterns observed on Earth.
Another name for atmospheric circulation patterns is global wind patterns. These patterns are driven by the uneven heating of Earth's surface and play a critical role in redistributing heat and moisture around the globe.
Weather patterns will change, and are changing already. Warming is energy, and this extra energy in the atmosphere gives more strength to storms, changes wind and ocean current directions, and moves rain from its usual patterns.
False.
The overall global circulation of air is mainly caused by the unequal heating of the Earth's surface by the sun. Warm air rises at the equator and cool air sinks at the poles, creating large-scale patterns of atmospheric circulation. The Coriolis effect and Earth's rotation also play a role in shaping wind patterns on a global scale.
Global circulation cells regulate atmospheric circulation and distribute heat around the Earth, influencing climate patterns. They play a crucial role in redistributing heat from the equator to the poles through the movement of air masses. These cells also affect weather patterns, ocean currents, and the transport of pollutants in the atmosphere.
A warming change in weather patterns is GLOBAL WARMING. It can be caused by ozone depletion.
The global circulation of ocean currents and heat is primarily driven by a combination of wind patterns, the Earth's rotation (Coriolis effect), and differences in water temperature and salinity, which create density gradients. Surface winds push water in specific directions, while the rotation of the Earth influences the direction of these currents. Additionally, the thermohaline circulation, or "global conveyor belt," plays a crucial role in redistributing heat across the oceans by moving warm surface water to polar regions and bringing cold water back to the equator. Together, these factors maintain the Earth's climate and influence weather patterns globally.
This process creates global atmospheric circulation patterns known as Hadley cells at the equator and polar cells at the poles. These circulation patterns play a key role in redistributing heat around the Earth and influencing weather patterns.
global winds generally blow from specific directions over long distances
Global warming
Global warming