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What else can I help you with?
Why is the Earths ocean water warmer at the poles?
I'm not positive on this but I'm pretty sure. The equator is just warmer because the sun is shining brightest on it. The earth is round so the center of the earth or the equator is closer to the sun the tips or the north or south pole. Because the equator is warmer, the oceans are warmer too.
Is the equator the warmest part of the ocean?
Ocean water generally gets warmer toward the equator and cooler toward the poles. However, the warmest water is not usually observed directly on the equator itself.
Where do cold water currents begin?
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
What way does the ocean water move globally?
Along warm water currents from the equator to the poles.
Water is cooler near the poles and warmer near the equator Movement of cooler and warmer water from these regions moderates the global climate what describes the movement of water?
This movement of water is known as ocean currents. Cold water from the poles and warm water from the equator flow and mix together, helping to distribute heat around the Earth. This process helps regulate temperatures in different regions and plays a crucial role in the Earth's climate system.
What describes the movement of water between the poles and the equator?
The movement of water between the poles and the equator is driven by global wind patterns and ocean currents. Warm water moves from the equator towards the poles, while cold water flows from the poles towards the equator in a process known as thermohaline circulation. This exchange of water helps regulate global climate and ocean temperatures.
What causes water near the ocean floor to move from poles to equator?
Water near the ocean floor moves from the poles to the equator primarily due to thermohaline circulation, which is driven by differences in temperature and salinity. Cold, dense water at the poles sinks and flows towards the equator, while warmer, less dense water rises and moves poleward at the surface. This global conveyor belt of ocean currents plays a crucial role in regulating climate and distributing heat across the planet. Additionally, the Coriolis effect influences the direction of these currents as they move along the ocean floor.
Describe the temperature of the currents that flow away from the equator and explain why they are this way?
Heating by the sun near the equator makes the water there warm. In the polar regions, the water is cold. Cold water weighs more than warm and as a result, the warm waters of the equator drift toward the poles. The cold wear from the poles then flows toward the equator to replace the warm water that is leaving.
Why do currents flow faster at the equator than at the polls?
Because the water is warmer at the equator than at the pole. The warmer ocean water is the faster the currents move and the colder the water is the slow the currents move.
Why does warm ocean water near the equator not melt the earths poles when it travels to the poles?
because it gets cold on the way.
What does warm water do to the climate?
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.
What helps to distribute the heat in ocean water?
The distribution of heat in ocean water is primarily facilitated by ocean currents, which move warm water from the equator toward the poles and cold water from the poles toward the equator. Wind patterns also play a crucial role in driving these currents and mixing surface waters. Additionally, convection processes within the water column help redistribute heat by moving warmer water upward and cooler water downward. This combination of currents and mixing ensures a relatively uniform temperature distribution throughout the ocean.
