It absorbs heat as it passes through the head and exhaust tubing and then BANG it hits the air and combusts sometimes.
Not exact matches
The first is that our planet's oceans act
as a massive watery
heat - sink, and currently
absorb more than 90 percent of increased atmospheric
heat that are associated with human activity.
You don't want your sauce to be too mushy — I always pull it from the
heat once a few cranberries begin to pop and the liquid is mostly
absorbed (it will continue thickening off of the
heat source
as well).
I end up burning the bottom because the rice
absorbed all the liquid before I had the chance to notice, or I take the pot off the
heat and then realize
as we're about to eat it that, oops, the stupid brown rice is still not cooked.
ADD the eggplant, tossing and stirring the chunks
as they
heat up to help them
absorb all the oil.
While most ingredients
absorb heat from the pan, sugar actually generates its own
heat as it breaks down.
If you're using a more mild buffalo sauce, but you like a ton of
heat, you may add a little bit of ground cayenne to the lentils
as they're
absorbing the buffalo sauce.
Once you take it off the
heat, the rice will continue to
absorb the remaining liquid so get it out of the pot and onto the plate
as soon
as possible!
Put it in a saucepan with 330 ml (11 1/4 fl oz / 11/3 cups) of water, bring to the boil over high
heat, then reduce the
heat to
as low
as possible and simmer for 10 minutes or until the liquid is
absorbed and the quinoa is soft.
Then
as you wait for the skillet to
heat, the flour
absorbs all of the excess moisture from the zucchini creating a thick batter that forms perfect little golden fritters.
Add the rice and cook on medium
heat, covered, until all of the liquid
as been
absorbed.
You're completely right about oil allowing our bodies to
absorb the fat soluble vitamins, but I generally add oil when they're done cooking
as some oils aren't that
heat tolerant.
The lighter the pan the better
as dark pans
absorb the
heat and often burn the loaf.
However, the Kabana Skin Care website addresses this issue by saying that contrary to titanium dioxide, zinc oxide
absorbs the sun's intense UV rays and «turns it into comparably harmless infrared, which it disposes of
as heat» rather than dumping the UV rays back into your body's cellular structures.
Also, use a light colored fabric that will not
absorb as much
heat.
The claim with regards to teething specifically, is that when the Amber beads are worn, the Succinic Acid is
absorbed into the body through the skin
as the result of a reaction to our normal body
heat, and acts
as a natural pain reliever, easing baby's pain without the use of medication or other chemicals.
As a final note, if you cover the milk after
heating it and let it sit for 10 minutes, covered, it will
absorb more bouquet from the vanilla bean.
Named P2, this iteration of the X-Prize concept rover has vertical solar panels to
absorb energy even at sunrise and sunset and sports a white band around its shell that will act
as a radiator during the intense
heat of lunar midday.
Finally, the film of electrons would
absorb the radiation and reemit it
as heat.
Trees perform three major climate functions: They
absorb carbon, which they pull from the atmosphere, creating a cooling effect; their dark green leaves
absorb light from the sun,
heating Earth's surface; and they draw water from the soil, which evaporates into the atmosphere, creating low clouds that reflect the sun's hot rays (a mechanism known
as evotranspiration that also leads to cooling).
As the climate changes, Southern Ocean upwelling may increase, which could accelerate ice shelf melting, release more carbon into the atmosphere and limit the ocean's ability to
absorb heat and carbon dioxide from the atmosphere.
The tiny particles also serve
as condensation nuclei for clouds and are trapped between cloud particles, where their ability to
absorb heat helps dry up those clouds and allows more sunlight to reach Earth.
The
heat absorbed by water vapor and carbon dioxide is shared with all the nitrogen, oxygen and argon, because the latter molecules are always bumping into water vapor and carbon dioxide
as they mix in the atmosphere.
That's where the thick concrete comes in:
As the cylinders deflect the seismic waves, they would also
absorb some of the waves» energy and convert it into
heat and sound.
For example, photonic crystals could funnel excess
heat from a power plant's generator and release it over a much smaller band of frequencies to drive engines — such
as those in electric - powered cars that can
absorb energy only within a small range — much more efficiently.
Over a long period the earths surface temperature will remain approximately constant because the amount of
heat absorbed as visible light is equal to the amount emitted
as infrared light.
But to be effective, solar cell designers need to ensure the connecting junctions between these stacked cells do not
absorb any of the solar energy and do not siphon off the voltage the cells produce — effectively wasting that energy
as heat.
In theory, 30 % energy - conversion efficiency is the upper limit for traditional single - junction solar cells,
as most of the solar energy that strikes the cell passes through without being
absorbed, or becomes
heat energy instead.
This promises a huge improvement compared to current technology, in which the
absorbed light energy is dissipated
as heat to the crystal lattice, making the conventional excitation schemes extremely inefficient.
But just
as something painted black is very good at both emitting and
absorbing heat, a semiconductor that is very good at emitting photons is also very good at
absorbing them.
But
as the food starts getting a bit brown, that brown part gets darker and darker and begins to
absorb more and more
heat.
Under full sunlight, the energy from excess
absorbed photons is intentionally dissipated by the plant
as heat.
Instead, black carbon is expelled into the atmosphere combined with other compounds such
as sulfates, which affect their
heat -
absorbing and reflective properties.
Normally, titanium oxide in the atmospheres of hot Jupiters
absorbs light and reradiates it
as heat, making the atmosphere grow warmer at higher altitudes.
But they
absorb and release latent
heat according to the same principles
as ice melting (storing
heat) and refreezing (releasing that
heat).
By developing these materials
absorbing large amounts of water without losing its shape was achieved,
as well
as the ability to retain
heat at a temperature between 37 and 42 degrees Celcius.
But when they encounter biological tissue, they either reflect off the body harmlessly or get
absorbed by the skin
as heat.
The team calculated that those hydrocarbon clumps could
absorb heat from the sun
as well
as from gases in the atmosphere and radiate it back into space.
Sandia engineers developed and tested the new receivers at the National Solar Thermal Testing Facility, studying their ability to withstand high temperatures and pressures while
absorbing sunlight
as heat that can be stored or transferred to a power cycle to generate electricity.
They may act
as reflectors, bouncing incoming sunlight back into space, or like blankets,
absorbing heat emitted from the surface and then radiating it back down.
Hyperthermia (hyperpyrexia), in its advanced state referred to
as heat stroke or sunstroke, is an acute condition which occurs when the body produces or
absorbs more
heat than it can dissipate.
Each dot
absorbs and concentrates a laser's
heat, which then flows through the underlying material
as phonons.
The researchers
heated a solution of molecules derived from fructose — the basic building blocks for their plastics — and molecules that can
absorb light to make long chains that form the plastics, which appeared
as pale brown solids.
So the report notes that the current «pause» in new global average temperature records since 1998 — a year that saw the second strongest El Nino on record and shattered warming records — does not reflect the long - term trend and may be explained by the oceans
absorbing the majority of the extra
heat trapped by greenhouse gases
as well
as the cooling contributions of volcanic eruptions.
The formation of a stratosphere layer in a planet's atmosphere is attributed to «sunscreen» - like molecules, which
absorb UV and visible radiation coming from the star and then release that energy
as heat.
As ammonium levels in the
heated soil increased, trees grew faster and
absorbed more carbon.
As the sun flushes
heat into our atmosphere at a mind - boggling rate of 175 quadrillion watts, the air near the equator
absorbs more energy than the air near the poles.
Among the other advantages of flexible MOFs, Long says, is that they do not
heat up
as much
as other methane
absorbers, so there is less cooling of the fuel required.
That prevents the carbon layer from
absorbing as much
heat from the skin.
Peering through a viewport, I watch
as a blob of atoms
absorbs photons of laser light and re-emits them at slightly higher energies, losing a bit of
heat each time.