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The same thing!
Deep Currents
Occur when the density of the water increases.
Density is based on two main things it is the civility is how much salt and other solids are in it and it is also the temperature of the water.The lower the temperature the lower the dense the water becomes.
The denser the water the more it was to go down.
The less dense the water wants to rise.
The temperature is what causes the dense.
Deep current:A streamline movement of ocean water far below the surface.
What else can I help you with?
Are density currents faster than surface currents?
no, density currents flow slower than surface currents because surface currents are powered by the wind ;)
Why are some density currents warm and others cold?
there are some warm currents as they flow along the earths surface while there some cold currents as they travel below the earths surface
What is the cause of most surface currents?
Surface currents are primarily caused by the wind, which transfers its energy to the ocean's surface through friction. The rotation of the Earth also influences the direction of these currents through the Coriolis effect.
What is the primary difference between surface currents and deep currents?
Compare and contrast surface currents and deep currents. They are both are moving water that flows through oceans. Surface currents are towards the top of the ocean, can be warm or cold, and are controlled by winds. Deep currents are low, deep in the ocean, cold, and are controlled by density.
What are the three types of ocean currents?
The three types of ocean currents are surface currents, deep currents, and tidal currents. Surface currents are driven by winds, deep currents are driven by density and temperature differences, and tidal currents are driven by the gravitational pull of the moon and sun.
Compare and contrast surface and density currents?
Density currents are slower than surface currents b/c surface currents are powered by the wind.
Which of the folling can form in the geosphere and carry heat from earth mantle toward the surface conduction currents infared currents convection currents or surface currents?
Convection currents are the ones that can form in the geosphere and carry heat from the Earth's mantle towards the surface. These currents move molten rock in the mantle due to differences in temperature and density, driving the movement of tectonic plates and influencing volcanic activity.
How does density currents circaulate water?
Density currents circulate water because of density defferences.
Do deep ocean currents and surface currents mix?
Deep ocean currents and surface currents do interact and influence each other. While they flow at different depths and have different driving factors (wind for surface currents and density for deep currents), they are connected through the global ocean circulation system. Changes in one can impact the other over time.
The 3 forces that create water currents?
Wind, tides, and density differences in water mass due to temperature and salinity variations are the three main forces that create water currents. Wind creates surface currents, tides generate both surface and deep currents, and density differences drive thermohaline circulation.
What causes the formation of the two types of ocean currents?
Ocean currents are primarily caused by wind patterns, the Earth's rotation (Coriolis effect), and differences in water density due to temperature and salinity variations. Surface currents are driven by winds, while deep ocean currents are influenced by density differences and temperature gradients. The combination of these factors creates the two types of ocean currents.
Currents are caused by temperature and density differences?
Currents in the ocean are primarily driven by a combination of wind, temperature, and density differences. Wind helps generate surface currents, while temperature and density variances, such as those caused by differences in salinity, contribute to deeper ocean currents like thermohaline circulation. These factors work together to create complex patterns of ocean currents that help circulate heat and nutrients around the globe.
