The portion of the sun in which energy moves from atom to atom in the form of waves is called the?
the convection zone
The radiative zone
The convection zone
convection zones
That happens in the Core.
The convection zone
In order from the core to the outer extremes.Main areas in bold1. Core2. Radiative zone3. Convective zone4. Photosphere5. Chromosphere6. Corona7. Sunspot8. Granules9. ProminenceSee link for more information.
Thermonuclear fusion in the core of the star heats the material of the star. A series of complex energy transfer mechanisms transport the heat from the core to the photosphere of the star. The photosphere then emits electromagnetic radiation.
The grainieness is caused by convective cells at the sun's sufrace. Hooter material rises up at the centers of these "grains" (called granules) while less hot material sinks around their edges. Each granule is several hundred miles across.
Radiation is the transfer of energy through a vacuum.
zone transfer
In the radiative zone, energy moves from atom to atom in the form of electromagnetic waves, or radiation. Energy produced in the core moves through this zone by convection, the transfer of energy by moving liquids or gases.
In the radiative zone, energy moves from atom to atom in the form of electromagnetic waves, or radiation. Energy produced in the core moves through this zone by convection, the transfer of energy by moving liquids or gases.
For conductive and convective heat transfer, the rate of heat transfer is proportional to the the temperature difference; if you double the difference you will double the rate of heat transfer. For radiative heat transfer, the rate of heat transfer is proportional to the difference of the 4th powers of the absolute temperatures.
Obviously not by heat transfer; heat, of course, will only flow from hotter objects to colder objects. There are different theories about how the corona heats up; currently, it isn't known for sure which of these theories is correct.
Convection heat transfer is the transfer of heat by the movement of a fluid.
convective and radiant heat transfer
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In order from the core to the outer extremes.Main areas in bold1. Core2. Radiative zone3. Convective zone4. Photosphere5. Chromosphere6. Corona7. Sunspot8. Granules9. ProminenceSee link for more information.
Convection heat transfer is the transfer of heat by the movement of a fluid.
The melting of the snowman will be a result of both radiative and convective heat transfer. The sun will directly pour energy into the snowman as radiative heat transfer (although a lot would be reflected too) and the surrounding air, as it is warmed by the sun or by the ground that the sun shines on will transfer heat via convection.
Yes, the juice temperature increases with an increasing convective heat transfer coefficient at any constant kettle surface temperature. The convective heat transfer coefficient represents the efficiency of heat transfer from the kettle to the juice. As the convective heat transfer coefficient rises, more heat is transferred from the kettle surface to the juice per unit of time. This increased efficiency results in a faster temperature rise in the juice. Therefore, a higher convective heat transfer coefficient enhances the overall heating process, leading to a greater temperature increase in the juice even when the kettle surface temperature remains constant.
G. W. Paltridge has written: 'Radiative processes in meteorology and climatology' -- subject(s): Atmospheric radiation, Radiative transfer