Cold air moves downwards, where as hot air moves upwards. To be able to see that happening, if you open up your freezer door at home when your kitchen is hot, you will be able to see the cold air falling to the floor and your toes might get cold. This is the reason that people say how under floor heating is a muc more economical way to heat a room, due to the fact that the floor gets heated first and will retain some of it's heat. The heat that is produced from radiators leaves the metal and moves straight up, therefore heating the top of a room first, and you would need to heat a room for a longer time before feeling the heat at a constant temperature all the way to the ground.
In simple terms - warm air rises, creating a 'space'. The colder air flows into the space to fill the 'gap'. As the air rises, it cools - sinking back to ground level. It's these air movements that create wind.
Air.
No. Heat does move with the wind, but the wind is not mostly towards the poles, as this map demonstrates. The winds going towards the equator all bend to the West because of the Coriolis effect.
Warm ocean currents originate near the equator. Cold ocean currents originatenear the poles. When ocean water becomes denser, it sinks to the bottom of the ocean.
Move towards the U magnet so that the poles attach.
The angle between the geographic and magnetic poles extends more towards the east, as you move to the north. The magnetic pole is actually near Greenland.
The magnetic poles do move a bit, but stay mainly near the north and south geographic poles. As the continents move, though, different areas of crust overlay the magnetic poles, and the paleomagnetic markers (such as iron granules) point to where the pole WAS when they were deposited and then solidified into position. These "polar" crustal regions later move and the poles appear to have moved; actually, the crust has moved instead. For example, the north magnetic pole now is on an arctic island. In 100 milliion years that island may have been moved by plate tectonics to the equator, and the lava deposited in Yellowstone will point to that area.
Warm currents move from the equator to the poles, and the cold currents move from the poles to the equator. :D
Along warm water currents from the equator to the poles.
if a current originates near the poles and flows towards the equator, it will be colder than all the water it meets. Hence it will be a cold current. ...conversely, if it originates near the equator and flows towards the pole, it will be warmer than the water it meets and be a warm current. In a Short Summary Cold Ocean Currents Originate From The Poles And Warm Ocean Currents Originate From The Equator
The latitude can be thought of as the distance from the equator. 0 degrees latitude is the equator, which is typically warmer than locations closer than the poles. As you move away from the Equator and towards the North or South poles, the weather tends to be colder. In contrast, the region between the poles and the equator often has a greater temperature range variation.
No. Heat does move with the wind, but the wind is not mostly towards the poles, as this map demonstrates. The winds going towards the equator all bend to the West because of the Coriolis effect.
the equator the equator
Air masses of different pressures and temperature move around the Earth. The cold air masses that form at the poles move toward the equator, while the warm air masses that form at the equator move toward the poles.
Ocean currents move warm water from the equator to the poles and cold water from the poles back to the equator. The heat carried north helps warm the northern countries in the winter time.
As you move away from the equator, temperatures fall. As you move closer to the equator, temperatures rise. Thus, the warmest region of the globe is along the equator, and the coldest is at the north and south poles.
No. The Gulf Stream moves water from the Equator towards Europe. The Benguela current moves cold water up from Antarctica.
No. Your mass doesn't even change when you move from the equator to the moon.
Along cold water currents from the poles to the equator.