「tem- perature」の共起表現一覧(1語右で並び替え)5ページ目
該当件数 : 3066件
The correct | temperature difference assures that all processes occur |
version for relative temperatures, where no | temperature difference is zero in all units, is simply |
etween the heat source and sink reduces the | temperature difference between the spaces and greatly r |
water flow to the quench box, to manage the | temperature difference through the cross-section of the |
zed) potential (relative velocity, voltage, | temperature difference) times some substance-like quant |
The CoP increases as the | temperature difference, or "Lift", decreases between he |
the existence of a 'hottest part' implies a | temperature difference, and any marginally competent ph |
ΔT: | temperature difference, (SI units: °C)), |
le/thermocouple circuits are used to detect | temperature differences between the reference cell (fil |
ter summers and drier winters, and seasonal | temperature differences more extreme, showing a more co |
Too high a heat up rate will result in high | temperature differences between the surface and core th |
o that the instrument can be set to measure | temperature differences at either high or low temperatu |
f fluorescence decreases exponentially with | temperature, differences in emitted light intensity can |
airless body this gives rise to very large | temperature differences. |
This is important at | temperature different to 25°C. |
the heat exchanger at 230 °C (446 °F) - the | temperature differential caused a brittle fracture in t |
ts like a Thermal Buffer Zone - Two smaller | temperature differentials produce much lower heat trans |
which he developed a method involving high | temperature digestion in a sealed tube. |
to with air; the difference is the lack of | temperature diluting inert gases. |
The solvent is then removed by a lower | temperature distillation process and reclaimed for re-u |
CO(g) + Mg(g) → C(s) + MgO(s) (low | temperature, distillation condensing zone) |
Cryogenic process using low | temperature distillation. |
cooling of molten glass generates an uneven | temperature distribution in the body of the glass which |
icroscopy technique for infrared imaging of | temperature distribution in small scale; the achievable |
spots on the surface of the star, i.e. the | temperature distribution is not uniform. |
Temperature does not strongly affect the species but wi | |
comparison to true hibernators, their body | temperature does not drop significantly (staying around |
pecies overwinters in the deep waters where | temperature does not drop below 4 °C (39 °F); the fact |
If the | temperature does drop below this temperature the materi |
For an ideal gas, the | temperature doesn't change, and the conditions before a |
tures combined with cool wind can bring the | temperature down to about -20 °C. |
cessary, and care must be taken to keep the | temperature down. |
with phase locked loop circuitry to reduce | temperature drift to less than 250ppm/oC. |
nearity, hysteresis, repeatability, and the | temperature drifts of zero and sensitivity - electronic |
atio, but deltaH/T (roughly proportional to | temperature drop across the unit/component entry temper |
ront is often well defined, causing a large | temperature drop in a 24-hour period. |
ed with more than one meter of snow and the | temperature dropped below −30 C°. |
ate, the animal's breathing slows down, its | temperature drops to almost that of its surroundings, a |
The boiler will re-fire if the boiler water | temperature drops below a range around the high limit. |
he vertical zone in the water through which | temperature drops rapidly. |
tropical environments, dying easily if the | temperature drops below freezing. |
Therefore, when | temperature drops or food is scarce, they have trouble |
surized to 4,500 psi at 96 °F and later the | temperature drops to 32 °F, the pressure gauge will ind |
The room | temperature drops to subzero when the laptop suddenly b |
monsoon enhanced by Nina caused significant | temperature drops and gale force winds over the coastal |
vain or sourdough pre-ferment, if the dough | temperature drops below 10 °C (50 °F) it affects the cu |
(a form of hibernation) in autumn when the | temperature drops. |
Unlike wet bulb | temperature, dry bulb temperature does not indicate the |
Its equilibrium | temperature, due to its proximity to its star, is hot, |
l proportionately and the wire will rise in | temperature due to the reduced cooling effect. |
(2007) estimates that the expected rise in | temperature due to a doubling of CO2 to be about 3 °C ( |
on Tropoelastin aggregates at physiological | temperature due to interactions between hydrophobic dom |
The effect of the parcel's change in | temperature due to adiabatic change in pressure (as pre |
can also be done with diethyl ether at room | temperature, due to its high solubility in the ether. |
The | temperature during the day near the dam rises up to 35 |
he bond when the board is subjected to high | temperature during soldering; the lead-free solders, wh |
Scovill Zoo responds to high rises in | temperature during the summer months by implementing fa |
The moderate | temperature during the grapes' maturing period determin |
f maceration and time in contact with lees, | temperature during fermentation as well as processes li |
The annealing | temperature during a polymerase chain reaction determin |
eoteny may be explained by a drop in global | temperature during the Oligocene cooling event, which m |
e substrate used, and also on the substrate | temperature during growth. |
to overcome is being able to grow at a low | temperature during a presumably short time span when a |
e to detect and measure a small increase of | temperature during the slightest muscular movement. |
Minimum | temperature during winder is 4 to 6 degree Celsius whil |
ple takes much longer to achieve the target | temperature, e.g. when heating a large sample of cerami |
Brandy has a more pleasant aroma at a lower | temperature, e.g., 16 °C (61 °F). |
Starting at some initial | temperature, each adiabatic path would lead to a differ |
Temperature: Eaux-de-vie are usually served chilled. | |
factor method is that it takes into account | temperature effects on the meter. |
the satellite, on mechanical and | temperature effects to the instrument, on the experienc |
d dynamic range as well as compensation for | temperature effects in realtime are critical factors fo |
ding respectively on the decay mechanism or | temperature effects like Doppler broadening. |
al degradation resulting from the aging and | temperature effects on the elements within the device o |
"Proton core | temperature effects on the relative drift and anisotrop |
Thermoreceptors respond to | temperature, either heat, cold or both |
ratios and it is a good candidate for high | temperature electrolysis. |
layers to retain more of the higher melting | temperature element. |
nd regulation have been to raise mean water | temperature, eliminate freezing conditions, depress sum |
Heat enters the cycle in high | temperature endothermic chemical reactions 2 and 3, and |
th fuel displaces the oxygen and lowers the | temperature enough to extinguish the flame. |
A | temperature entropy diagram, or T-s diagram, is used in |
Since the surface of the Earth is a low | temperature environment compared to the zones of rock f |
ble to dig faster, operate in a much higher | temperature environment, deliver longer downhole life, |
In a high | temperature environment, an epimerization change is lik |
ite and natrojarosite) is favoured by a low | temperature environment, less than 100 °C, and is illus |
In a high | temperature environment, an epimerization change is mor |
t near the contact with the surrounding low | temperature environment. |
lar nature, can also vary according to body | temperature, environmental temperatures, and other exte |
ses their stability in saline and even high | temperature environments considerably, but comes at som |
lite is formed in high pressure and/or high | temperature environments. |
equal, they would both change more or less | temperature equally, assuming equal mass-flow per unit |
form or contract due to heatwork to produce | temperature equivalents. |
arrison, as a pendulum that compensates for | temperature errors: a grid of alternating brass and ste |
tes the control of superheater outlet steam | temperature especially during start ups. |
(The | temperature estimate was subsequently confirmed with th |
olest white dwarfs known, with an effective | temperature estimated to be approximately 3900 K equali |
Temperature estimates range from 1600 K to 2400 K. | |
and phosphorus), various toxic pollutants, | temperature, etc. |
rse of a year in response to precipitation, | temperature, evapotranspiration, and drainage basin cha |
very windy; this may decrease the apparent | temperature even more. |
s its ability to maintain its constant body | temperature even in cold weather. |
even more severely by sudden large drops in | temperature even above freezing. |
16 January - The lowest | temperature ever recorded in Ireland, -19.1C (-2.4F) at |
Highest | temperature ever recorded is 44°C and lowest is 10 °C. |
Mississippi's highest | temperature ever recorded occurred here on July 29, 193 |
On 19 July 2006, the hottest | temperature ever recorded in the month of July in the U |
The minimum | temperature ever recorded was 8.9°C on 20 February 1936 |
The highest | temperature ever measured in Washington state, at 118 ° |
anda Station is the location of the highest | temperature ever recorded in Antarctica, which was 15.0 |
The highest | temperature ever recorded in Half Moon Bay is 96°F (36 |
The coldest | temperature ever recorded in the city was -4°F in 1983. |
The warmest | temperature ever recorded in the city was 106°F in 1983 |
phenomenon, Brookings recorded its highest | temperature ever, 110 degrees Fahrenheit, on July 8, 20 |
lt Lake Tribune, which would be the highest | temperature ever-recorded in Utah. |
e inside of homes became ovens, with indoor | temperature exceeding 90 °F (32 °C) at night. |
S) over Mach 0.2, as Airspeed increases the | temperature exceeds that of still air. |
If the | temperature exceeds 140 °C, the ethyl sulfate product t |
If the | temperature exceeds 170 °C in a considerable excess of |
with second and third row nonmetals at room | temperature except chlorine. |
This is because a system at zero | temperature exists in its ground state. |
the ones observed in liquid water: negative | temperature expansion, density maximum, and a heat capa |
ve poorly-controlled breathing rate or body | temperature, experience seizures or unusual body moveme |
riginal composition of and the pressure and | temperature experienced by the protolith (parent rock), |
filter plugging point (CFPP) is the lowest | temperature, expressed in 1°C, at which a given volume |
is a long-lived spore which is resistant to | temperature extremes and dehydration. |
ground, possibly to protect the larva from | temperature extremes and parasitoids. |
uld be very loud, and poorly insulated from | temperature extremes such as heat and cold. |
Temperature extremes are quite marked over the full yea | |
apis has a resistant spore that withstands | temperature extremes and dehydration. |
the improvement of aircrew protection from | temperature extremes and the lack of oxygen at high alt |
It is accelerated by warmth, but | temperature extremes impede it. |
CSM) noted for its resistance to chemicals, | temperature extremes, and ultraviolet light. |
The town experiences a lack of | temperature extremes, with temperatures below 0 °C (32 |
as, ingestion of and exposure to sea water, | temperature extremes, climate, physiological hygiene, t |
ting (of game birds such as waterfowl), and | temperature extremes, low population levels and food sh |
and fatigue resistance, and performance in | temperature extremes. |
ssible exception might be when working with | temperature extremophiles because some enzymes of these |
e ideal gas constant, T is the themodynamic | temperature, F is the Faraday constant, n is the valanc |
the need for lattice matching and the high | temperature fabrication procedure involved. |
argentite, stable above 176 °C, and a high | temperature face-centred cubic form stable above 586 °C |
e The | temperature factor is fixed at this value. |
f Equivalent isotropic | temperature factor. |
sensitive to frost and likely to die if the | temperature falls below -3°C. |
and then shuts off until the | temperature falls to below 540 °C (1000 °F). |
As a Possessor, Qin's body loses its | temperature fast and he is forced to jump from body to |
However, on January 17, 1893, the | temperature fell to -17°F (-27°C), the coldest temperat |
the time-varying and non-spatially-uniform | temperature field within the material body. |
difficult problems due to non-uniformity of | temperature fields within the object. |
han 1) are thermally simple, due to uniform | temperature fields inside the body. |
erybody is surprised to see their 'average' | temperature figures. |
r, Edmund Davy discovered that even at room | temperature, finely divided platinum would light up fro |
nd Rafelski discovered that at the Hagedorn | temperature finite size hadrons dissolve into a quark-g |
flow which is in turn volatilised in a high | temperature flame in the case of AAS or volatilised in |
onics, i.e. the science high speed and high | temperature flow. |
The surface | temperature fluctuates a bit, but the bottom temperatur |
It is tolerant of low light, low humidity, | temperature fluctuation and irregular watering. |
e is not known, although it is thought that | temperature fluctuations caused by overnight freezing a |
s of these bodies of water help to moderate | temperature fluctuations and extend the growing season |
as been shown in some examples to be due to | temperature fluctuations in marine environments, which |
Small changes in pH and | temperature fluctuations also contribute to inaccuracy. |
Seed germination occurs best with daily | temperature fluctuations or after stratification, which |
st have a limited amount of room vibration, | temperature fluctuations, electromagnetic waves, and ac |
F) in the warmest months) and without great | temperature fluctuations, usually occurring together wi |
rshed chemistry, ambient humidity, seasonal | temperature fluctuations, and wildlife habitats. |
plus resists shock, vibration, and extreme | temperature fluctuations. |
In order for the higher | temperature fluid to cool, the flow must be limited int |
cure the molded epoxy for 24 hours at room | temperature followed by a 24-hour bake at 40 ºC. |
The optimal | temperature for enzyme secretion is 37°C. |
ers can also be used) and incubated at room | temperature for the desired time to allow NO to accumul |
The milk is boiled for at moderate | temperature for 10 minutes and then rennet and salt is |
oat milk that has been heated to a moderate | temperature for 10 minutes. |
state can be approximated by more than one | temperature for the different degrees of freedom of the |
It is debated whether this is a subjective | temperature for which different individuals may determi |
show the relation between fluorescence and | temperature for labeled probe designed for a Wt sequenc |
l heating and cooling to regulate the water | temperature for these warm water inhabitants. |
asteurized beer is typically stored at room | temperature for several weeks. |
re cooked in bulk and can be stored on room | temperature for a couple of days. |
Some of his discoveries include the perfect | temperature for cooking an egg (around 65°C, the white |
llowing it to ferment spontaneously at room | temperature for two days. |
etween degree of polymerization and melting | temperature for polyethylene. |
0, 1932, which was also the lowest recorded | temperature for that month, 22 °F (−6 °C). |
The maximum | temperature for metamorphism is typically 700 - 900°C, |
The maximum | temperature for sterilization is 200oC . |
viscous solution is cooled or left at lower | temperature for long enough period, the linear molecule |
ffusion bond occurs far below the soldering | temperature for either metal. |
the oxide and the production of a very high | temperature for purposes of welding. |
Cleviprex can be stored to controlled room | temperature for up to 2 months. |
lol currently holds the record high average | temperature for an inhabited location on Earth, where a |
The preferred | temperature for this species is 24-28 °C (75-82 °F), wh |
) in methanol (40.00 mL) is stirred at room | temperature for one hour to give an orange precipitate |
Ideal | temperature for them would be 58 to 65 °F (14 to 18 °C) |
The starter is left sitting at room | temperature for the desired time period before being ad |
a good first guess for the initial contact | temperature for finite bodies. |
tool specimens unless it is left at ambient | temperature for a day or more. |
The optimum | temperature for oriental cockroaches is between 20 °C ( |
within 6-14 days after sowing; the optimal | temperature for germination is 18 °C. |
uniform heating of the steel at the optimum | temperature for maximum hardness. |
こんにちは ゲスト さん
ログイン |
Weblio会員(無料)になると 検索履歴を保存できる! 語彙力診断の実施回数増加! |
こんにちは ゲスト さん
ログイン |
Weblio会員(無料)になると 検索履歴を保存できる! 語彙力診断の実施回数増加! |