move in circular motion.
Convection currents occur when heat from a source warms a fluid or gas causing it to expand and become less dense, thus rising. As it rises, it cools and becomes denser, causing it to sink back down in a continuous circular motion. This process creates a convection current.
The convection currents that drive tectonic plate motion are found in the asthenosphere, which is the semi-fluid layer of the earth located beneath the lithosphere. These currents are created by the heat from the Earth's core, causing the asthenosphere to flow and move the tectonic plates above it.
Convection currents occur when heated material rises and cooler material sinks, creating a circular motion. This process transfers heat and helps distribute it throughout the fluid or gas. In the Earth's mantle, convection currents drive plate tectonics, causing continents to drift and leading to geological phenomena like earthquakes and volcanic eruptions.
The layer of rock that has convection currents flowing is called the mantle. Convection currents in the mantle are driven by heat from the Earth's core, causing magma to rise and fall in a continuous cycle. These movements play a significant role in driving tectonic plate motion and shaping the Earth's surface.
Earth's continental plates are in motion due to the movement of molten rock in the Earth's mantle. This movement, known as mantle convection, transfers heat and creates the forces that push and pull the plates in different directions, causing them to move across the surface of the Earth. The continuous motion of the plates is driven by the Earth's internal heat and the resulting convection currents in the mantle.
the convection currents will be set in motion because the heat from the mantle rises and causing it to change Earth's density & force of gravity
the convection currents will be set in motion because the heat from the mantle rises and causing it to change Earth's density & force of gravity
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?
The three factors that set convection currents in motion are: the heating and cooling of fluid, change in its density, and the force of gravity combine to set it in motion.
Convection currents occur when heat from a source warms a fluid or gas causing it to expand and become less dense, thus rising. As it rises, it cools and becomes denser, causing it to sink back down in a continuous circular motion. This process creates a convection current.
The three main factors that are responsible for setting convection currents in motion are the cooling and heating of fluid, any changes to their density and the force of gravity. These factors combine to set the currents in motion.
Convection currents
The convection currents that drive tectonic plate motion are found in the asthenosphere, which is the semi-fluid layer of the earth located beneath the lithosphere. These currents are created by the heat from the Earth's core, causing the asthenosphere to flow and move the tectonic plates above it.
Convection currents occur when heated material rises and cooler material sinks, creating a circular motion. This process transfers heat and helps distribute it throughout the fluid or gas. In the Earth's mantle, convection currents drive plate tectonics, causing continents to drift and leading to geological phenomena like earthquakes and volcanic eruptions.
The layer of rock that has convection currents flowing is called the mantle. Convection currents in the mantle are driven by heat from the Earth's core, causing magma to rise and fall in a continuous cycle. These movements play a significant role in driving tectonic plate motion and shaping the Earth's surface.
convection currents
Earth's continental plates are in motion due to the movement of molten rock in the Earth's mantle. This movement, known as mantle convection, transfers heat and creates the forces that push and pull the plates in different directions, causing them to move across the surface of the Earth. The continuous motion of the plates is driven by the Earth's internal heat and the resulting convection currents in the mantle.