The way the mantle circulates is through the process of convection. It refers to the transfer of heat from the Earth's core to the surface.
Conduction, Convection, and radiation are all ways that heat can be transferred between 2 objects. Conduction is transfer by direct contact like when you cook something on the stove. Convection occurs when heat is transferred by movement like in the Earth's mantle. Radiation occurs when waves are used to transfer heat like sunlight.
The Earth's heat is dissipated through processes such as conduction, convection, and radiation. Conduction transfers heat through the Earth's crust, while convection involves movement of molten material in the mantle. Radiation allows heat to be released into space.
Heat transfers in the Earth primarily through conduction, convection, and radiation. Conduction occurs through the Earth's crust and mantle as heat moves from the interior towards the surface. Convection involves the movement of hot magma in the mantle, creating the motion of tectonic plates. Radiation transfers heat through electromagnetic waves emitted by the Earth's core.
1.convection 2.radiation 3.conduction 4. 5. 6.false 7.true 8.true 9.false 10. False
The Earth is divided into four main layers: the inner core, outer core, mantle, and crust. The inner core is solid iron and nickel, while the outer core is liquid iron and nickel. The mantle is a semi-solid layer that lies between the crust and the core, and the crust is the Earth's outermost layer that includes the continents and oceans.
The mantle is beneath the earth's crust, and it circulates in a process known as mantle convection. This convection is driven by the heat from the Earth's core, causing molten rock to move in a circular motion, much like a conveyor belt.
the layer that has convection currents is the mantle
Our planet is warmed by conduction (heat from the mantle below), convection (tropical heat is transferred to the poles by wind and currents) and radiation (primarily the warmth of the sun, though there's also radioactive decay occurring in our planet's core).
The movements of mantle rock is a classic example of thermal convection, though there will be some conductivity as well.
Radiation. For more details. contact at saqibahmad81@yahoo.comanswer 2 Initially, the heat from the mantle will be carried by conduction to the upper layers, and eventually lost to the surface by radiation. Volcanoes may play a small part.
Radiation cannot occur in the Earth's mantle because the high density and pressure of the mantle material prevent electromagnetic radiation from propagating through it. Instead, heat transfer in the mantle occurs primarily through conduction and convection, with most of the heat generated by the decay of radioactive elements within the mantle itself.
Heat is primarily transferred through the Earth's systems by convection and conduction. Convection involves the movement of heat through the circulation of fluids (such as magma in the Earth's mantle), while conduction involves the transfer of heat through solid materials (such as the rocky layers of the Earth's crust).