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Do currents of cold sinking air produce regions of higher pressure or lower pressure at the earths surface?
Currents of cold sinking air produce regions of higher pressure at the Earth's surface. As air sinks, it compresses and becomes denser, leading to an increase in pressure at the surface. This high pressure often leads to fair weather and clear skies.
What happen when surface currents meet a continent?
you get waves not tidal waves or tsunami's! You just get waves. how big they get would depend on air currents and storms
Surface currents are set in motion by the?
Surface currents are set in motion by a combination of factors such as wind, the Earth's rotation (Coriolis effect), and differences in water density due to temperature and salinity variations. These factors create a complex system of ocean currents that circulate water around the globe.
When magma hardens and comes to the earths surface what is it called?
If the magma has hardened before being exposed at the surface it would be considered an intrusive igneous rock. It is hardens at or near the surface, it would be called extrusive igneous rock.
True or false Motion parallel to earths surface is vertical motion Motion parallel to earths surface is vertical motion?
False. Consider a car moving on the road, along the earth's surface. That is considered to be Vx or Horizontal motion or velocity. If the car were to move perpendicular to the earth's surface that would be Vy or Vertical motion and velocity.
What describes the circular motion of heat below the earths surface?
I would call this convection currents in the mantle.
What would a change in the earths core have an effect on?
convection currents in the mantle
Do convection currents cause earths heat?
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?
What would happend to the convection currents in the mantle if earths interior eventually cooled down?
They will stop.
Do currents of cold sinking air produce regions of higher pressure or lower pressure at the earths surface?
Currents of cold sinking air produce regions of higher pressure at the Earth's surface. As air sinks, it compresses and becomes denser, leading to an increase in pressure at the surface. This high pressure often leads to fair weather and clear skies.
How would surface currents be affected if the earth did not rotate?
If the Earth did not rotate, surface currents would be significantly altered. Without the Coriolis effect, which is caused by the Earth's rotation and influences the direction of winds and currents, surface water would primarily flow in a straight line from high to low pressure areas. This would likely result in a more straightforward flow pattern, potentially leading to less complex current systems. Ultimately, ocean circulation would be less efficient, impacting climate and weather patterns globally.
How does surface currents would be affected if earth did not rotate?
If Earth did not rotate, surface currents would be significantly altered. Currently, the Coriolis effect, caused by Earth's rotation, influences the direction of ocean currents, causing them to flow in a circular pattern around gyres. Without rotation, currents would primarily be driven by differences in temperature and salinity, leading to a more straightforward flow from the equator toward the poles. This would likely result in less complex and less stable oceanic circulation patterns.
What would the pattern of the surface current be like if there were no continents?
If there were no continents, surface currents would likely flow more uniformly and smoothly around the Earth in a continuous pattern. Without obstacles like land masses to redirect or disrupt the flow of water, the currents would likely follow a more consistent and predictable path around the globe.
What is a line parallel to the earths surface?
That would be latitude or longitude.
What are streamlike movements of water that occur at or near the surface of the ocean called?
currents
What are steadily flowing streams of water in the earths seas?
These streams are called Currents. An example would be The Gulf Stream.
How far beneath the earths surface would you have to go to find liquid material in the earths core?
1800km - 1900km
