Gyres are circular movements of ocean currents caused by the Coriolis Effect.
The wind-driven currents that are driven by the Coriolis Effect.
similarity is currents form gyres. difference is currents are any movement of water in one specific direction and gyres are circular patterns of water
vf
The Coriolis effect.
Circular ocean currents are called gyres.
Verticle stress causes monocline. Verticle stress causes monocline.
The Coriolis effect causes northern gyres to spin clockwise.
Gyres are caused by wind current, like the Coriolis effect. The rotation of the Earth plays a big part, as does friction of the waves and underlying ocean bottom.
Currents make circular patterns called gyres. The gyres in the nothern hempisphere run clockwise, and the gyres in the Southern hepmisphere run counter clock wise.
Gyres are large, circular ocean currents that are driven by global wind patterns and the Earth's rotation. They play a crucial role in distributing heat around the planet. The main difference between gyres in the northern and southern hemispheres is their direction of rotation: gyres in the northern hemisphere rotate clockwise, while gyres in the southern hemisphere rotate counterclockwise due to the Coriolis effect caused by the Earth's rotation.
A difference between gyres and currents is that currents are formed by the wind, but gyres are formed by currents.
Gyres
gyres in the northern hemisphere circulate clockwise, while the gyres in the southern hemisphere circulate counterclockwise
similarity is currents form gyres. difference is currents are any movement of water in one specific direction and gyres are circular patterns of water
vf
there are five gyres in the world, they are the north pacific, the south pacific, the north Atlantic, the south Atlantic, and the Indian ocean gyres.
The Coriolis effect, caused by the Earth's rotation, influences the direction of the currents in each hemisphere. This effect leads to clockwise gyres in the northern hemisphere and counterclockwise gyres in the southern hemisphere, creating separate systems due to the opposite directions of motion. The difference in wind patterns and landmass distributions also contribute to the distinct gyres in each hemisphere.
The Coriolis effect.