Uneven solar heating
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.
Wind currents flow faster at the poles than at the equator. This is due to the Coriolis effect, which causes the winds to be deflected as they move from high pressure to low pressure areas, creating stronger winds at higher latitudes. Additionally, temperature differences between the equator and the poles contribute to the strength of wind currents.
warm-water
Uneven solar heating
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.
Wind currents flow faster at the poles than at the equator. This is due to the Coriolis effect, which causes the winds to be deflected as they move from high pressure to low pressure areas, creating stronger winds at higher latitudes. Additionally, temperature differences between the equator and the poles contribute to the strength of wind currents.
Warm currents move from the equator to the poles, and the cold currents move from the poles to the equator. :D
warm-water
convection currents in the atmosphere
At the poles.
Yes, convection currents connect the poles all the way to the equator.
Along warm water currents from the equator to the poles.
At the poles.
The circulation of cold and warm water between the poles and the equator, and the rotation of the earth, cause ocean currents to flow.