Sentences with phrase «heat flowing»
Actually Willis, heat flowing through the silver wire forever doesn't mean it's impossible, as heat always flows forever in any system above absolute zero.
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A silver wire conducting heat from the top to a point where it is cooler will indeed see heat flowing continuously (and slowly).
That is an example of heat flowing from very cold to cold.
This process continues perpetually, with heat flowing round in a continuous cycle.
And once again you are talking confused nonsense about heat flowing in only one direction.
If it also has heat flowing into rather than out of the oceans during the growth of the warm phase of this mode, that would be even more dramatic news.
«If it also has heat flowing into rather than out of the oceans during the growth of the warm phase of this mode,»
Might it be heat flowing from within the Earth?
The earths energy balance is heat flowing in from the Sun and heat flowing out to space.
The energy source for geothermal electricity generation is the tremendous heat flowing from the Earth's core and mantle and from radioactive isotopes decaying in the Earth's crust.
You argue that this «slowdown» is evidence against the truth that an increased greenhouse gas effect slows down the rate of heat flowing out of the planetary system and thus increases the total heat in the system.
R - value: The R - value measures the resistance to heat flowing through insulation over time.
Adding further greenhouse gases to the atmosphere warms the ocean cool skin layer, which in turn reduces the amount of heat flowing out of the ocean.
The same concept applies to the cool skin layer - warm the top of the layer and the gradient across it decreases, therefore reducing heat flowing out of the ocean.
Known as a «test divertor unit (TDU) scraper element,» the component intercepts some of the heat flowing towards the divertor — a part of the machine that collects heat and particles as they escape from the plasma before they hit the stellarator wall or degrade the plasma's performance.
The German Aerospace Center (DLR) developed a thermal probe that can bury itself up to 16 feet (5 meters) underground and measure heat flowing from inside the planet.
The concentration of radioactivity measured down Germany's deepest hole (5.7 miles) would account for all the heat flowing out at the earth's surface if that concentration continued down to a depth of only 18.8 miles and if the crust were 4 billion years old.47
Heat flowing from a 25 - kilometer - long stripe within Tvashtar's caldera was so intense that it blinded part of the camera's electronic detector and created a white blotch.
This crustal weakness allowed unusually high heat flow from deeper mantle sources to «super-heat» the highly organic Niobrara source rocks, which in turn generated the significant oil and gas deposits now contained in the Niobrara and Codell formations.
The crustal basement weakness extends south - westerly of Wattenberg beneath the Rocky Mountains, where the same high heat flow system has contributed to extensive mineral deposits.
HS82 / HS84 Temperature control and heat flow measurement — optical analysis of melting and crystallization processes
DSC - chemiluminescence Simultaneous measurement of light emission and heat flow - multiple samples can be compared under absolutely identical conditions
Anything you can do to even out the heat flow will help:) Happy baking, Christina
As continuously circulating steam heat flows throughout the submersible heating elements, the entire surface of the Steam Shell Griddle is heated to a precise and uniform temperature.
Stevenson and other researchers have previously proposed a second mechanism besides heat flow that could produce the required convection in the outer core.
This equipment monitored the moon's meager atmosphere, listened for the faint rumbles of moonquakes and asteroid impacts and measured lunar heat flow.
Alfè and his colleagues used supercomputers to carry out a «first principles» calculation of heat flow in liquid iron at Earth's core.
This will reveal both the signatures of atmospheric ingredients such as water, methane, and carbon dioxide, and also how heat flows from the planet's dayside to its nightside.
Molecular dynamics simulations can simulate the vibrations of atoms and predict the heat flow in a material.
«In most systems, heat flow is equal in both directions, so there are no thermal devices like electrical diodes.
«Research could bring new devices that control heat flow.»
Triangular graphene nanoribbons (a) are proposed as a new thermal rectifier, in which the heat flow in one direction is larger than that in the opposite direction.
When measuring heat flow in the lab at weaker turbulence, the values can't be simply extrapolated to the higher Reynolds numbers in nature or industry.
Heat flows from hot to cold regardless of whether it consists of a fluid or, as it turns out, the collective motion of trillions of trillions of molecules.
This heat bath is connected to both other devices, and the researchers showed that it is possible to control its heat flow such that it cancels the heat coming from the warm object directly to the cool one via special quantum interference.
Heat flow in novel nanomaterials could help in creating environmentally friendly and cost - effective nanometric - scale energy devices.
Until now, heat transport in nanostructured materials has largely been controlled by introduction of atomic - scale impurities, interfaces, surfaces and nanoparticles that reduce heat flow by scattering the phonons diffusely.
Scientists hope to use the weird thermodynamics of quantum particles to create quantum engines that could perform tasks beyond the reach of typical machines (SN: 3/19/16, p. 18), such as controlling the direction of heat flow on small scales, Serra says.
As the heat flows, the correlations between the two nuclei dissipate, a process that compensates for the entropy decrease due to the reverse heat flow.
Before these so - called materials - by - design can be applied, it is essential to understand their characteristics, such as heat flow.
But when the two nuclei had strong enough quantum correlations, heat flowed backward, making the hot nucleus hotter and the cold nucleus colder.
When the two nuclei's energy states were uncorrelated, the heat flowed as normal, from hot hydrogen to cold carbon.
In their paper, they studied how thermal noise flows through quantum devices and they devised a method that can prevent the heat flow to warm up the sensitive quantum device.
Their research has also introduced a new dimension to the emerging field of «phononics» which is the controlling and manipulating of heat flow with phonons (particles which transmit heat within solid materials).
But Jacob Taylor, a physicist at the National Institute of Standards and Technology in Gaithersburg, Maryland, says it provides experimental data for «a quiet revolution» in statistical physics, the study of how heat flows both in microscopic systems and on the scale of everyday life.
When an electric current was applied in a direction slightly misaligned with the chains, heat flowed perpendicular to the current, a phenomenon known as the «transverse Peltier effect.»
To estimate the temperature at various depths (from 3,500 m to 9,500 m depth) the researchers have used the heat flow and temperatures at 1,000 m and 2,000 m provided in the Atlas of Geothermal Resources in Europe, as well as thermal data of the land surface available from NASA.
The process relies on a simple premise: heat flows from hot to cold.
Since a thinner ice shell retains less heat, the tidal effects caused by Saturn on the large fractures in the ice at the south pole are no longer enough to explain the strong heat flow affecting this region.
It starts in 1807, when Joseph Fourier devised an equation for heat flow.