«This heat map of a test room clearly shows the stratification effect
created by a convection heater when there's little air movement in the room: the yellow bar at the ceiling represents about 22 °C, the purple bit (where your cold feet would be) about 14 °C.»
Local Winds — air currents
created by convection.
Not exact matches
Or they may be signs of
convection driven
by heat from Pluto's interior,
creating «the same sorts of patterns you see when you look at the surface of a boiling pot of oatmeal, or like the blobs in a lava lamp,» Moore said.
Presumably, the strong stellar wind emitted
by giant stars eventually blows the titanium oxide out of the star's outer regions (along with hydrogen and helium gases and dust made of elements and molecules like carbon) into interstellar space, until vigorous
convection brings out more titanium and oxygen that are
created from nuclear processes deeper in the star.
ie When you heatup the air
by the valid GHG radiative absorbtion process, does this higher temperature
create a natural increase (ie CHANGE) in
convection or Not?
The height of the tropopause is set
by ozone in the stratosphere reacting directly with incoming solar energy so as to
create a temperature inversion that blocks further upward
convection.
The intertropical convergence zone is distinguished
by a wide band of cumulus and cumulonimbus clouds that are
created by dynamic atmospheric lifting due to convergence and
convection.
By doing so you might learn along the way the real valid physics of heat transfer in fluid dynamics which is how we get out great wind and weather systems from the equator to the poles, because you would then understand that the atmosphere around us is a heavy voluminous fluid and the dynamics of heat transfer in this is by convection which is what wind is, created out of differential heating of volumes of this flui
By doing so you might learn along the way the real valid physics of heat transfer in fluid dynamics which is how we get out great wind and weather systems from the equator to the poles, because you would then understand that the atmosphere around us is a heavy voluminous fluid and the dynamics of heat transfer in this is
by convection which is what wind is, created out of differential heating of volumes of this flui
by convection which is what wind is,
created out of differential heating of volumes of this fluid.
But deep water production
by convection may be less, depending on how much NADW is Arctic in origin and how much is simply recirculated Antarctic bottom water (extremely dense water, formed as brine under the sea ice around polynas offshore of Antarctica and sliding down the continental shelf into the depths without much mixing,
creates a giant pool of dense water extending all the way up the bottom of the Atlantic to about 60 ° N).
Consider the oceans, the subsurface materials,
convection, conduction, clouds, etc., and you will obtain an unbiased result that doesn't need of
creating energy from the nothingness
by gases with unphysical characteristics.
Created, for example,
by taking out the whole of the Water Cycle and taking out rain from the Carbon Cycle and changing the real gases oxygen and nitrogen to ideal to take out heat transfer
by convection which transfers heat away from the surface and sets up
convection currents which bring cold air back to the surface, winds.