What directly causes the pressure difference between the equator and the poles?
A. The direction where wind blows
B. The amount of heat in each area
C. The length of each season
D. The rotation of Earth on its axis
Plz help?????????????????
Dont cheat with this
1)the amount of heat in each area
2)The sun shines directly on the equator region.
3)condensation
4)It cools down and descends.
5)convection
have a good day :)
Well, if I had to choose, B
The warm air at the equator expands, density decreases and the pressure goes down as the air rises and air flows in from the higher latitudes.
TYPO is correct thank you!!
Thanks you “thx” I got it all right even though I did the work you helped correct 😂
Why is the equator region the hottest part of earth's surface
May I ask why everyone thinks I am dead?
thx i right and you are not me
What directly causes the pressure difference between the equator and the poles?
The amount of heat in each area causes the pressure difference between the equator and the poles. The equator receives more solar radiation than the poles which causes the air to warm up and expand, leading to a low atmospheric pressure. On the other hand, the polar regions receive less solar radiation, resulting in colder air that sinks, creating a high atmospheric pressure.
To determine what directly causes the pressure difference between the equator and the poles, let's analyze the given options:
A. The direction where wind blows: While wind patterns do play a role in redistributing pressure, they are not the direct cause of the pressure difference between the equator and the poles. Therefore, option A is not the correct answer.
B. The amount of heat in each area: The amount of heat in each area is the primary factor that directly causes the pressure difference between the equator and the poles. The equator receives more direct sunlight throughout the year, resulting in warmer temperatures. This warm air expands and rises, creating a low-pressure system at the equator. On the other hand, the poles receive less direct sunlight and remain colder, causing air to be denser and sink, creating a high-pressure system. So, option B is the correct answer.
C. The length of each season: The length of each season does not directly cause the pressure difference between the equator and the poles. While seasonal variations can impact temperature and therefore pressure, they are not the direct cause of the pressure difference. This makes option C incorrect.
D. The rotation of Earth on its axis: The rotation of the Earth on its axis influences the wind patterns and circulation systems, but it is not the direct cause of the pressure difference between the equator and the poles. Thus, option D is not the correct answer.
In conclusion, the correct answer is B. The amount of heat in each area.