「temperature]」の共起表現一覧(1語左で並び替え)5ページ目
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the discharge of a cold water at a constant | temperature, resulting in an ideal habitat for rainbow |
ystems the wire is maintained at a constant | temperature, the current required to achieve this is th |
be put into mathematical terms (at constant | temperature) as |
e test subject is then placed in a constant | temperature cooling bath on top of a gasket to prevent |
le fermenting for three years at a constant | temperature of 15C. |
proximately 30 days and requires a constant | temperature of greater than 30°C (86°F). |
reaction (PCR), but that works at constant | temperature. |
lectronic crystal oscillators at a constant | temperature, in order to prevent changes in the frequen |
density of possible hosts and the constant | temperature throughout the year. |
ric layer under the assumptions of constant | temperature and gravity. |
Waters in the blue holes are of a constant | temperature and never freeze over despite northern Ohio |
that a linear relation exists, at constant | temperature, between the crystal lattice parameter of a |
awn in the wet region and lines of constant | temperature are drawn in the superheated region. |
, and as a heat transfer medium in constant | temperature baths. |
a good first guess for the initial contact | temperature for finite bodies. |
If, on the contrary, | temperature is too low to support a thermotropic phase, |
ng the pipe, a user draws slowly to control | temperature, improving the yield of cannabinoids. |
no longer possible to independently control | temperature and pressure. |
mposite manufacturing uses fluid to control | temperature, as opposed to the gas generally used withi |
ction Calorimetry is the ability to control | temperature in the face of extreme thermal events. |
e-like saucepan and roasted at a controlled | temperature. |
w through a calibrated tube at a controlled | temperature. |
on the marver, for two reasons: controlling | temperature and adjusting shape. |
an altitude chamber, capable of controlling | temperature, humidity and atmospheric pressure. |
The convective | temperature (CT or Tc) is the approximate temperature t |
air is heated from below to the convective | temperature, without mechanical lift. |
Convective | temperature is important to forecasting thunderstorm de |
r long periods to maintain the high cooking | temperature. |
ers were added to increase fuel and coolant | temperature, a large heavy-duty battery was fitted and |
They are commonly controlled by coolant | temperature or under hood air temperature, but may be p |
Thus, changes in the average coolant | temperature, notably from the steam demand of engine th |
mmed" in or out to regulate average coolant | temperature or lowered to the bottom of the reactor ves |
In spite of its cooler | temperature, Deneb Kaitos is much brighter than the Sun |
-average light levels and a slightly cooler | temperature. |
ble thermometer that allows a person's core | temperature to be continuously monitored. |
The Sun for example has a core | temperature of 13,600,000 K. |
not noticed by the operators until the core | temperature alarms sounded. |
"Proton core | temperature effects on the relative drift and anisotrop |
or days to get the new water to the correct | temperature. |
The correct | temperature difference assures that all processes occur |
days providing they are kept at the correct | temperature (10 to 15 degrees Celsius; 32 to 41 °F) and |
not flow, 3°C is added to the corresponding | temperature and the result is the pour point temperatur |
rs during the summer months, when the creek | temperature remains in the 40s Fahrenheit. |
Tl2Ba2Ca2Cu3O10 (TBCCO-2223) has a critical | temperature (Tc) of 127 K, discovered in 1988. |
als in about 1873 when he used the critical | temperature and critical pressure to characterize a flu |
sk, when gas in the disk reaches a critical | temperature that causes a change in viscosity, resultin |
uld have been vaporised once their critical | temperature had been reached." |
where Tc is the critical | temperature of the substance. |
stance rises suddenly at a certain critical | temperature. |
uperconductor when it is below its critical | temperature. |
the reactor, which is approaching critical | temperature, detonates. |
he liquid phase as it is below its critical | temperature. |
ne there is the zone of LCT (lower critical | temperature) and above there is the zone of UCT (upper |
tants for the species at hand: the critical | temperature Tc, critical pressure Pc, and the acentric |
rials or circuits underneath their critical | temperature of typically a few kelvins. |
pages 2560-2561, except for critical | temperature line (31.1°C) and temperatures -30°C and be |
When the disk reaches a critical | temperature, the gas collapses onto the white dwarf res |
The critical | temperature of oxygen is −118 °C. |
or with its input stage cooled to cryogenic | temperature |
oints of the gas relative to the cryopump's | temperature. |
s acquired during cooling through the Curie | temperature of the magnetic minerals and is the best so |
Above its Curie | temperature (about 350K) Jahn-Teller polarons are forme |
Hysteresis heating occurs below the Curie | temperature where materials lose their magnetic propert |
Because of its low Curie | temperature, chrome tape lent itself to thermomagnetic |
Its Curie | temperature (Tc) is 16.6 K. Below this temperature EuS |
Ferromagnetic materials below their Curie | temperature, however, exhibit magnetic domains in which |
mometer is flipped upside down, the current | temperature will be shown until it is turned upright ag |
and minimum scales; this shows the current | temperature and should be the same on both scales. |
Mean maximum daily | temperature in summer is 34°C and in winter is 19°C. |
Very large daily | temperature swings are a regular feature of Lake City's |
Average daily | temperature in Karur during January is around 23 °C, th |
t retreats to cooler areas during the daily | temperature peaks. |
Seed germination occurs best with daily | temperature fluctuations or after stratification, which |
the humidity starts to increase and the day | temperature might rise up to 32 °C. |
to include two colder months with a daytime | temperature of 24°C and 16°C at night. |
The daytime | temperature on Eros can reach about 100 °C at perihelio |
The daytime | temperature should be between around 29°C while at nigh |
around 130 °C, although, the decomposition | temperature of impure samples can be much lower. |
g a hydrocarbon nearly to its decomposition | temperature, and permitting the graphite to crystallise |
e of 100% MgO, the publicated decomposition | temperature in cases of material safety is 662 °C. |
The decomposition | temperature of a substance is the temperature at which |
mpound with the highest known decomposition | temperature is carbon monoxide at ≈3870 °C (≈7000 °F).. |
prepared, it is heated to its decomposition | temperature, 600 °C. |
IBGe also offers lower decomposition | temperature (the onset of decomposition at ca. 325-350 |
erties change with increasing or decreasing | temperature. |
easing pressure and salinity and decreasing | temperature. |
n which it's based) as changes in the delta | temperature (Tout - Tin) are magnified by keeping the f |
Requirement for precise denaturation | temperature control during PCR to within ± 0.3 °C (0.54 |
red by heating the sample at its denaturing | temperature and then the temperature is suddenly reduce |
Ice, depending on the desired | temperature of the drink. |
and cooling systems to maintain the desired | temperature and humidity. |
the fuel being used to produce the desired | temperature. |
The entire vessel can be kept at desired | temperature by using a limpet jacket, jacketed bottom d |
th, protection from drought and destructive | temperature changes, and the development of a healthy c |
le/thermocouple circuits are used to detect | temperature differences between the reference cell (fil |
The output signal of the detector ( | Temperature T) is related to the thermal radiation or i |
Physical abilities: able to determine | temperature of a flame to a thousandth of a degree at a |
to reading a thermometer gauge to determine | temperature. |
nd De Sitter Thermodynamics from Diamonds's | Temperature, Triply special relativity from six dimensi |
At a rather different | temperature, a line of Routemasters at a LBPT bus event |
tem was to insert a liquid with a different | temperature into the body resulting in an increase or d |
A differential | temperature sensor with a motorized valve can control t |
four thermodynamic diagrams used to display | temperature lapse rate and moisture content profiles in |
water sewers using fiber-optic distributed | temperature sensing. |
fiber optic cables are used for distributed | temperature sensing. |
marked by ancient calcareous soils, diurnal | temperature variations of nearly 50 °F (10 °C), and war |
he fog is responsible for the large diurnal | temperature variation with nighttime temperatures dropp |
t areas typically have the greatest diurnal | temperature variations. |
Wide diurnal | temperature ranges are regular, due to the aridity and |
The area has a fairly significant diurnal | temperature variation upwards of 30°F between daytime a |
obtained from the amplitude of the diurnal | temperature curve (i.e., maximum minus minimum surface |
fic Ocean, the AVA is prone to wide diurnal | temperature variation of between 40 to 50 degrees Fahre |
Diurnal | temperature variations are greatest very near the earth |
e most familiar such pattern is the diurnal | temperature variation. |
Diurnal | temperature variation is a meteorological term that rel |
The area has a wide diurnal | temperature variation of up to 50 °F (10 °C), with dayt |
Doppler | temperature is the minimum temperature achievable with |
vain or sourdough pre-ferment, if the dough | temperature drops below 10 °C (50 °F) it affects the cu |
The dry-bulb | temperature is the temperature of air measured by a the |
uted to different influences on the earth's | temperature is faulty, and the validity of evidence der |
seous layer where, because of the Earthlike | temperature and pressure, droplets may condense from th |
density of the earth, change in the earth's | temperature occurs slowly. |
Metabolic ecology: | temperature and body size in the determination of biolo |
In general, the edge | temperature under expected use is an important determin |
st, they were measurements of the effective | temperature of space and did not suggest that space was |
cosmic rays in the galaxy has an effective | temperature of 2.8K |
The effective | temperature spans between a minimum of 2,400 and a maxi |
The photosphere shows an effective | temperature of 5,625 °K and a metallicity (Fe/H) equal |
Its mass is 1.2 solar and effective | temperature 5610 kelvins. |
HD 49933 has a higher effective | temperature than the Sun at about 6,598 K and emits 3.4 |
mass of Jupiter, and an estimated effective | temperature of 950 K. |
olest white dwarfs known, with an effective | temperature estimated to be approximately 3900 K equali |
Kepler-11 has an effective | temperature of 5680 (± 100) K, only slightly cooler tha |
an apparent magnitude of 8.25, an effective | temperature of 5705 ± 27 K and a solar luminosity 1.28. |
r microturbulence varies with the effective | temperature and the surface gravity. |
3.8 billion years old, and has an effective | temperature of 5647 K (9,705 °F). |
With an effective | temperature of 6176 K, HD 205739 is also hotter than th |
The hydrogen lines and effective | temperature of the star are similar to spectral type A8 |
The star has an effective | temperature of 6300 K, making it hotter than the Sun. |
er quality wines and to have more effective | temperature control. |
billion years old and to have an effective | temperature of 5627 (± 44) K; To compare, the Sun is yo |
The star's effective | temperature is 5933 (± 44) K. To compare, the Sun relea |
me, Distance (pc), Spectral Type, Effective | Temperature, Apparent Magnitude V, Mass, Radius, Age, R |
sification is seen depends on the effective | temperature. |
Space Telescope give an estimated effective | temperature of between 550 and 600 K and does not emit |
The star has a very low effective | temperature (roughly 2700 K) but a very large and bloat |
The discoverers estimate its effective | temperature as 264 K from solar heating, but it could b |
Experimental Observations on the Effective | Temperature of the Sun. |
This would result in an effective | temperature around 50 K, similar to that of Neptune. |
Its effective | temperature is estimated at about 800 Kelvin. |
The term "hot" refers to the effective | temperature used to model carrier density, not to the o |
ator transition, obtained by varying either | temperature or pressure. |
sity, magnetic field strength, and electron | temperature. |
tential drop large compared to the electron | temperature, the result is |
plasma electron | temperature measurement (TEL). |
A, shot duration ~25 msec, central electron | temperature ~ 100 eV and core plasma density ~ 1019 m-3 |
rolling the cooling rate with an electronic | temperature controller. |
ETI or Electronic | Temperature Instruments is a worldwide manufacturer and |
Electronic | Temperature Instruments is the UK's largest digital the |
nol and acetic acid, especially at elevated | temperature. |
30% sulfur is pressure leached at elevated | temperature and pressure in an ammoniacal solution to p |
action of methyl iodide on zinc at elevated | temperature or on zinc sodium alloy. |
an be driven out by application of elevated | temperature and a vacuum. |
ic, the LaRC-SI can be reformed at elevated | temperature and pressures. |
um exhibits viscosity retention at elevated | temperature, and is stable in a wide pH range, in the p |
e peroxides on contact with air at elevated | temperature. |
It is cured at elevated | temperature and pressure.; |
Elevated | temperature and chemical detergents are often employed |
using ion exchange at elevated | temperature. |
ocess subjects a component to both elevated | temperature and isostatic gas pressure in a high pressu |
l allows the sample to be dried at elevated | temperature; this is especially preferred when storage |
impurities from polymerization at elevated | temperature. |
This elevated | temperature heat shocks non-fecal bacteria and suppress |
At the elevated | temperature and pressure conditions chemically reactive |
eaction with aluminium chloride at elevated | temperature rearranges to adamantane. |
her a physiological effect (due to elevated | temperature) or enhanced photosynthesis (due to increas |
el the metal reacts with iodine at elevated | temperature forming the iodide. |
al zone (TNZ) is essentially an endotherm's | temperature tolerance range. |
ection, Engine speed, Vehicle speed, Engine | temperature and Throttle body opening percentage. |
hoice resulted in a higher maximum envelope | temperature of 300 degrees Fahrenheit. |
y a part in sensing innocuous environmental | temperature. |
case of WASP-11b/HAT-P-10b, the equilibrium | temperature is 1030 K and the Safronov number is 0.047± |
or hot Jupiters is based on the equilibrium | temperature and the planet's Safronov number. |
Its equilibrium | temperature could be between approximately 393-555 K (1 |
ht to be extremely hot, with an equilibrium | temperature greater than 1700 Kelvin (2600 Fahrenheit). |
Its equilibrium | temperature, due to its proximity to its star, is hot, |
as such an eccentric orbit, the equilibrium | temperature of the planet varies between 300 K and 600 |
Annotation "(s)" indicates equilibrium | temperature of vapor over solid. |
Equivalent | temperature is the temperature of an air parcel from wh |
With a magnifier it is possible to estimate | temperature changes to 0.001 °C. |
With an estimated | temperature of at least half a million degrees, it woul |
e photosphere of Mu Cephei has an estimated | temperature of 3,690 ± 50 K. |
the coolest known stars, with an estimated | temperature of 600 Kelvin (326 degrees Celsius), cooler |
Based on its low mass and estimated | temperature of around 50 K, the planet is thought to co |
to around −27.5 °C (−17.5 °F) (its eutectic | temperature). |
such as nickel and manganese, the eutectoid | temperature becomes much lower, but the kinetic barrier |
a soldering station, which allows the exact | temperature of the tip to be adjusted, kept constant, a |
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