Not conduction, but convection currents, are what drive winds and many ocean currents.
Essentially, yes: the Sun's heat creates convection-currents.
Wind and water. Air currents (wind) carry heat poleward. This is mainly heat transfer by convection. Water currents carry heat poleward. This is heat transfer by convection and conduction.
Convection currents are observed in several places on Earth, including the atmosphere, where warm air rises and cool air sinks, creating wind patterns. In the oceans, convection currents drive oceanic circulation, influencing climate and weather patterns. Additionally, within the Earth's mantle, convection currents contribute to plate tectonics by causing the movement of tectonic plates. Finally, convection currents can also be found in volcanic activity, where magma rises due to temperature differences.
Surface currents are caused by wind, and affected by the rotation of the Earth and the gravity of the moon (tides). When the oceans are deep, convection within the layers can also affect the flow of currents. * While wind currents are greatly affected by uneven heating of the Earth's surface, there is no corresponding heating of the ocean bottom by the Sun. So currents do not form spontaneously at depth.
Surface currents are caused by wind, and affected by the rotation of the Earth and the gravity of the moon (tides). When the oceans are deep, convection within the layers can also affect the flow of currents. * While wind currents are greatly affected by uneven heating of the Earth's surface, there is no corresponding heating of the ocean bottom by the Sun. So currents do not form spontaneously at depth.
Convection currents can be found in real-world examples such as in the atmosphere, where they drive weather patterns and wind movements. In the ocean, convection currents play a role in the circulation of water and nutrient distribution. In the Earth's mantle, convection currents are responsible for the movement of tectonic plates and the formation of volcanic activity.
No. Convection currents are the circular motion of earth's wind. If the earth did not rotate, convection currents would not be. Does that make sense?
yes
Wind.
Yes they do.
Some examples of convection energy include the transfer of heat in a boiling pot of water, the movement of warm air currents in a room, and the circulation of ocean currents due to temperature differences. In all these examples, energy is transferred through the movement of fluids or gases.
Ocean currents are primarily driven by a combination of convection and wind patterns. Convection currents are created by the temperature differences in the water, causing warm water to rise and cold water to sink. Wind patterns also influence the direction and strength of ocean currents. Radiation and conduction do not play significant roles in the formation of ocean currents.
Surface ocean currents are caused by winds. As wind blows across the surface, the wind pulls the water and causes waves.
Convection is the process that causes warm air to rise and cold air to sink. As such, the winds caused by this process are called convection currents.
The movement of huge convection currents coupled with the Earth's rotation creates global wind patterns. This leads to the formation of prevailing winds, such as the trade winds and westerlies, that drive weather systems around the world. The Coriolis effect also influences wind direction, deflecting air masses to the right in the northern hemisphere and to the left in the southern hemisphere.
It is responsible for the wind because when the atoms have direct contact, the heat gets transfered. So, that causes wind.
The wind is caused by a combination of the Earth's rotation and the heat of the sun causing convection currents in the atmosphere.