When i fart it causes pollution and my fart is so big it disrupts the atmosphere causing polar shifts...
The difference in temperatures between the Equator and the north and south poles, plus the rotation of the earth, causes the air currents.
The difference in temperatures between the Equator and the north and south poles, plus the rotation of the earth, causes the air currents.
When i fart it causes pollution and my fart is so big it disrupts the atmosphere causing polar shifts...
earths tilt (apex)
Global air convection currents are primarily driven by the uneven heating of the Earth's surface by the sun. Near the equator, the sun's rays are more direct, causing warm air to rise and create low pressure. As this warm air moves poleward, it cools and sinks, creating high-pressure areas near the poles. The rotation of the Earth (Coriolis effect) also influences these currents, leading to the formation of distinct wind patterns, such as the trade winds and westerlies.
Earth's tilt
The difference in temperatures between the Equator and the north and south poles, plus the rotation of the earth, causes the air currents.
The difference in temperatures between the Equator and the north and south poles, plus the rotation of the earth, causes the air currents.
When i fart it causes pollution and my fart is so big it disrupts the atmosphere causing polar shifts...
earths tilt (apex)
The global convection currents between the equator and the poles are primarily driven by the uneven heating of Earth's surface by the Sun. As the equator receives more direct sunlight, it heats up and warm air rises, creating a low-pressure area. This air then moves towards the poles at high altitudes and cools, sinking at the poles and creating high-pressure areas. This continuous cycle of warm air rising at the equator and cold air sinking at the poles drives the global convection currents.
earths tilt (apex)
earths tilt (apex)
Global convection currents are caused by the unequal heating of Earth's surface by the Sun. As the Sun's rays strike the equator more directly, the air at the equator becomes warmer and rises, creating a low-pressure area. This warm air then moves towards the poles and cools, sinking at around 30 degrees latitude, creating high-pressure areas that flow back towards the equator, completing the convection loop.
Global air convection currents are primarily driven by the uneven heating of the Earth's surface by the sun. Near the equator, the sun's rays are more direct, causing warm air to rise and create low pressure. As this warm air moves poleward, it cools and sinks, creating high-pressure areas near the poles. The rotation of the Earth (Coriolis effect) also influences these currents, leading to the formation of distinct wind patterns, such as the trade winds and westerlies.
it can produce convection current in the atmosphere
Convection cells in Earth's atmosphere move heat from the equator towards the poles and then back towards the equator. These cells help redistribute heat and maintain global temperature equilibrium.