Want this question answered?
the answer is A.) clear
Stormy. If a very low barometric pressure system where air rotation is counter clock wise, sits off the coast in the norht east region for example, and a high pressure system where center of rotation is clock wise, moves in from the west. The result very high wind conditions. Air rotating clockwise(high pressure), and air rotating counter clockwise (low pressure) the end result is very windy air between the two systems.
In the summertime: Fair and warm weather. In the wintertime: Fair and cold weather.
A low pressure region should mean that the region is low in air. The air from the surrounding region (which is comparatively at higher pressure) moves into this low pressure region creating a wind. So, wind is the movement of air from a high pressure region into a low pressure region. Warm air is lighter than cold air. Warm air being lighter moves upward creating a low pressure region. So, wind could also be a movement of air from cooler to warmer region.
a high pressure system moves clockwise, while a low one moves counter clockwise. high pressure systems move down and out, and low pressure systems move in and up.
How does a region has a low pressure and a high pressure system moves in. What is the best prediction about the weather from this information?
Stormy
the answer is A.) clear
the answer is A.) clear
the answer is A.) clear
the answer is A.) clear
high-pressure region
Stormy. If a very low barometric pressure system where air rotation is counter clock wise, sits off the coast in the norht east region for example, and a high pressure system where center of rotation is clock wise, moves in from the west. The result very high wind conditions. Air rotating clockwise(high pressure), and air rotating counter clockwise (low pressure) the end result is very windy air between the two systems.
Stormy. If a very low barometric pressure system where air rotation is counter clock wise, sits off the coast in the norht east region for example, and a high pressure system where center of rotation is clock wise, moves in from the west. The result very high wind conditions. Air rotating clockwise(high pressure), and air rotating counter clockwise (low pressure) the end result is very windy air between the two systems.
In the summertime: Fair and warm weather. In the wintertime: Fair and cold weather.
Yes, air pressure affects wind. Wind tends to blow from a region of high pressure to a region of lower pressure. As a result, low pressure regions tend to experience more turbulent weather.
A low pressure region should mean that the region is low in air. The air from the surrounding region (which is comparatively at higher pressure) moves into this low pressure region creating a wind. So, wind is the movement of air from a high pressure region into a low pressure region. Warm air is lighter than cold air. Warm air being lighter moves upward creating a low pressure region. So, wind could also be a movement of air from cooler to warmer region.