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n unsanitary bottling/kegging practice than | temperature or time. |
action of methyl iodide on zinc at elevated | temperature or on zinc sodium alloy. |
It may be served hot, at room | temperature or chilled. |
Boilers and other high | temperature or pressure applications take advantage of |
typical power law behavior as a function of | temperature or electric field, whichever is the greater |
lectrons, and can be disrupted by increased | temperature or by presence of suitable atoms in the lat |
There are several methods of measuring the | temperature or pressure of mineral formation relying on |
xtural changes due to extremes of pressure, | temperature or both) |
r damage due to shattering on the way up to | temperature, or more importantly, slumping while being |
be achieved by variation of the liquid, the | temperature or variation of the pressure. |
ps were being added for aroma, fermentation | temperature, or how the beer was supposed to taste. |
The autoignition | temperature or kindling point of a substance is the low |
(such as hyperphosphorylation), changes in | temperature or pH, an increase in production of a prote |
They are commonly controlled by coolant | temperature or under hood air temperature, but may be p |
use the reaction has been run at too high a | temperature, or because an excess of benzyl chloride ha |
ator transition, obtained by varying either | temperature or pressure. |
epend on a hypotheses regarding atmospheric | temperature or air density in relation to altitude. |
lay meteorological fields such as pressure, | temperature, or wind speeds. |
Red dessert wine are served at room | temperature or slightly chilled. |
cess to prevent their formation, or by high | temperature or catalytic reaction with ammonia or urea. |
l cameras use a sensor operating at ambient | temperature, or a sensor stabilized at a temperature cl |
A thermometer measures air | temperature, or the kinetic energy of the molecules wit |
reduction in water flow, a change in water | temperature or water quality, or could modify the habit |
mmed" in or out to regulate average coolant | temperature or lowered to the bottom of the reactor ves |
her a physiological effect (due to elevated | temperature) or enhanced photosynthesis (due to increas |
o not state rated pressure as a function of | temperature or altitude and leave it to the user to mak |
d for several months can be kept at a lower | temperature, others seem to keep growing. |
o maintain a perfectly ideal mechanism, the | temperature output must be the absolute zero, which is |
rker shares his observations of the minimum | temperature over 24 hours worldwide since 1950 that wer |
re is sealed in a vacuum and held at a high | temperature over a longer period (1000 °C for five days |
Map of the average | temperature over 30 years. |
ut exposing it to smoke, slowly raising the | temperature over the course of the curing. |
sonde data (relative humidity, pressure and | temperature) over the whole atmosphere. |
A plot of ancient water | temperature over time indicates that climate has varied |
lly regenerated or restored by in situ high | temperature oxidation of the coke followed by chlorinat |
in soil and groundwater, together with pH, | temperature, oxygen content, electron acceptor/donor co |
or white commissure, leading to the loss of | temperature, pain, and coarse touch sensation at the af |
rced, is softened by heating the sheet to a | temperature particular to the plastic in use. |
"Global-Scale | Temperature Patterns and Climate Forcing Over the Past |
tributions made in research of Fieberkurve ( | temperature patterns) involving typhoid fever. |
t retreats to cooler areas during the daily | temperature peaks. |
f fruit flies varies inversely with ambient | temperature, Pearl (like Rubner) also asserted that max |
ted that this is not a direct effect of the | temperature per se but rather a result of the temperatu |
(MDMT)M is the lowest | temperature permitted according to the metallurgy of th |
The park has a humus soil structure and hot | temperature persists throughout the year. |
ygen, nitrogen, carbon dioxide) flow rates, | temperature, pH and dissolved oxygen levels, and agitat |
ble to alter experimental conditions (e.g., | temperature, pH) in vitro such that some mammalian isof |
ding on several factors including the water | temperature, pH, and dissolved ion concentrations. |
oxygen and biochemical oxygen demand (BOD), | temperature, pH, turbidity, phosphorus, nitrates, total |
ergoes a reversible lower critical solution | temperature phase transition from a swollen hydrated st |
In the lowest | temperature phase, the commensurate phase (below 180K) |
Austenite and the higher | temperature phases of steel were becoming more and more |
However, low | temperature photolysis of 1,3-dithiol-2-one in solid ar |
Kim Eunseong is an experimental low | temperature physicist. |
In 1963, he was named head of the Low | Temperature Physics section at the Westinghouse Researc |
bachelor's degree in 1998 and a Ph.D in low | temperature physics at Penn State University in 2004. |
hapter written for the 1967 Progress in Low | Temperature Physics together with Mamaladze. |
rection of research at the Institute is low | temperature physics, such as superconductivity and supe |
He performed pioneering work in low | temperature physics, in particular in solidifying heliu |
e is also the editor for the Journal of Low | Temperature Physics. |
at the University of Oxford, working in low | temperature physics. |
Keeping the bread in a dry room | temperature place helps to prevent the growth of mold a |
in order to eliminate stratified layers of | temperature, plant, or animal life. |
A stable, high | temperature plasma of about 7000 K is then generated as |
In plasma medicine research, low | temperature plasmas (or simply cold plasmas) are used t |
hese are the generation of large volume low | temperature plasmas, the interaction of microwaves with |
for research on magnetically confined high | temperature plasmas. |
Polyphenylene sulfide is a useful high | temperature plastic. |
ensual play can include feathers, tickling, | temperature play including wax play and ice play, food |
GDs are calculated each day as maximum | temperature plus the minimum temperature divided by 2 ( |
and hot cutting through the luke-warm room | temperature poets of our times. |
tests which relied on dry heat and a single | temperature, pointing out that relative humidity affect |
ough corona poling can be performed at room | temperature, poling at elevated temperature has several |
The low | temperature potentially makes it a member of the theore |
binson equation of state, Tr is the reduced | temperature, Pr is the reduced pressure, Z is the compr |
The sensors include triple redundant air | temperature, precipitation sensor, wind speed and groun |
Climatology Network (GHCN) is a database of | temperature, precipitation and pressure records managed |
ied science is primarily concerned with low | temperature preservation. |
reparation, only upon the present values of | temperature, pressure and magnetic field, and therefore |
Temperature, pressure and heating value compensation mu | |
or plasma) can be proportional to the gas's | temperature, pressure or a weighted sum of both. |
nt on control of the processing parameters: | temperature, pressure and time - a typical cycle time b |
ic acquisitions in key sensor areas such as | Temperature, Pressure, Level, and Flow sensors. |
ate vertical profiles of atmospheric gases, | temperature, pressure, and cloud ice. |
fied for certain conditions, changes in the | temperature, pressure, or composition of the gases ente |
nce 37°C is within the range of normal body | temperature, PrfA protein, as well as listeriolysin O a |
low sensitivity to | temperature, primary voltage & frequency variations |
This involves reducing a patient's body | temperature prior to an operation in order to reduce th |
een considerable interest in the faulty air | temperature probe that initially caused the pilot to tu |
d of problems with his KERS system due to a | temperature problem, and was advised to turn it off. |
This lower | temperature process prevents the decomposition and dena |
an be achieved by low-pH (and possibly high | temperature) processes related to the formation of pala |
d, some CVD silicon oxide processes are low | temperature processes. |
hen there is a boundary layer with a normal | temperature profile (warm air rising into cooler air) a |
Temperature profile for a 20 mm diameter fuel pellet wi | |
rs, each sensing a particular wavelength, a | temperature profile, or sounding of the atmosphere, can |
n would be insensitive to variations in the | temperature profile, which is why it is observed so muc |
o calculate and report BRN given a vertical | temperature profile. |
ned to globally measure the composition and | temperature profiles of the MLT region, as well as its |
Temperature profiles in a mine shaft and over lakes and | |
s and to determine high vertical resolution | temperature profiles. |
esorption spectroscopy (TDS), also known as | temperature programmed desorption (TPD) is the method o |
For example, at any given | temperature, propane has the highest vapor pressure of |
Exsolution symplectite may be used as | temperature proxies. |
lution, synthesis in structured media, high | temperature pyrolysis, sonochemical, and radiolytic met |
The sparking is a result of cerium's low | temperature pyrophoricity, its ignition temperature occ |
hese may be extremely high or low ranges of | temperature, radiation, pressure, acidity, alkalinity, |
ntative of supergene environments where low | temperature rain water (meteoric) becomes acidic. |
Now when the | temperature raises for amplification to 72 degrees, the |
n to molybdenum disulfide (MoS2) in a broad | temperature range from 300 °C to 820 °C. |
The water extends the | temperature range downwards before the magma sets solid |
non) pulses in the semimetal bismuth in the | temperature range of 1.2 to 4.0 K. |
It is in the same | temperature range as our Sun, 5,000 to 6,000 kelvins. |
environment and prefer freshwater an ideal | temperature range of 66 - 77 °F (19 - 25 °C). |
- 7.2 pH, a water hardness of 12 dGH, and a | temperature range of 22 - 25°C (72 - 77°F). |
n steel, a budget material with compromised | temperature range and chemical resistance. |
It thermally decomposes over a | temperature range of about 450-800 °C, releasing carbon |
The | temperature range for process annealing ranges from 260 |
Temperature range for use 0°C to 40°C | |
The | temperature range that is determined can then be averag |
It is suited for | temperature range of 10 to 40 °C (50 to 104 °F). |
eaning it would need to have the full color | temperature range as well as produce enough quantity of |
5 pH, a water hardness of 8 - 15 dGH, and a | temperature range of 68-77 °F (20-25 °C). |
The ores formed hydrothermally in a medium | temperature range of 300 to 150 °C. |
- 6.5 pH, a water hardness of 10 dGH, and a | temperature range of 75 - 86 °F (24 - 30 °C). |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 70 - 75 °F (21 - 24 °C). |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 70 - 75°F (21 - 24°C). |
Temperature range of 21.0-24.0°C | |
the eggs will hatch according to the water | temperature range it is in. |
would have useful characteristics within a | temperature range from 10 to 80 °C (50 to 176 °F). |
Operating | temperature range (Degrees Celsius): -51 to +49 |
Storage | Temperature Range (Degrees Celsius): -51 to +85 |
The average | temperature range is 2 °C. |
The | temperature range possible depends on the material and |
Lives in a | temperature range of 72 - 85 °F (22 - 29 °C). |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 68 - 77°F (20 - 25°C). |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 72 - 79°F (22 - 26°C). |
The metal is annealed in this | temperature range until the austenite turns to bainite |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 73 - 77°F (23 - 25°C). |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 77 - 83 °F (25 - 28 °C). |
It prefers a | temperature range of 72-82 degrees F (22-28 degrees C). |
s well in a range of lighting and prefers a | temperature range of 72-82 degrees F (22-28 degrees C). |
nly distributed between the seasons and the | temperature range is defined as temperate, with cooling |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 72 - 78°F (22 - 26°C). |
The | temperature range from day to night commonly exceeds 59 |
The normal | temperature range for the reaction is 90°C up to 150°C, |
rings (spas) with healing properties in the | temperature range from 42 to 54 °C. |
This | temperature range gives the F-type stars a yellow-white |
olycarbonate is stronger, usable in a wider | temperature range but more expensive. |
r components that must operate over a broad | temperature range and resist oil and coolants. |
The operator or the machine records the | temperature range starting with the initial phase chang |
reating tungsten powder with bromine in the | temperature range 650-1000 °C. |
er hardness of up to 15.0 dGH, and an ideal | temperature range of (23-27 °C (73-81 °F) . |
pH, a water hardness of 15 - 30 dGH, and a | temperature range of 64 - 82 °F (18 - 28 °C). |
all kind of plastic processing methods for | temperature range of 120 - 420 °C. |
tructure without defects, at least within a | temperature range of about 1 K below the transition fro |
Heat capacity was measured over a | temperature range 12-300°K. |
rnately loose and rigid to compensate for a | temperature range from 104 °F (40 °C) to minus 4°F) tha |
Moapa daces require warm water, in | temperature range of 87 to 93 °F. |
Annual average | temperature range from 9~41°C. |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 72 - 79 °F (22 - 26 °C). |
acies and greenschist facies representing a | temperature range of 250 to 350 °C and a pressure range |
The published | temperature range of this onsen is 42-47 degrees Celsiu |
It thermally decomposes, over a | temperature range of approximately 220°C to 550°C, rele |
ater hardness of up to 15 dGH, and an ideal | temperature range of 24-28 °C (75-82 °F). |
ives in a temperate climate in water with a | temperature range of 18°C to 22°C (64°F to 72°F). |
It prefers a | temperature range of 72-79 degrees F (22-26 degrees C). |
is thus very important for determining the | temperature range in oceanic and coastal regions. |
Optimal growth at a | temperature range from 33°C to 35°C, but also growth at |
er hardness of 5.0 - 19.0 dGH, and an ideal | temperature range of 69 - 79 °F (20 - 26 °C). |
Its "service | temperature range" is defined between -60 and 180 degre |
from the air and maintained within a narrow | temperature range, keeping the glass hot enough to rema |
ed to re-heat the billets to the semi-solid | temperature range, and die casting machines are used to |
This results in a narrow | temperature range, evenly spread rainfall, low levels o |
acillus is documented to have a wide pH and | temperature range, and complements the growth of L. aci |
other hand, will be in the −80°C to −196°C | temperature range. |
ed materials with associated limitations in | temperature range. |
Wide operating | temperature range. |
tate, depending on manufacturer and working | temperature range. |
ided 10 bit accuracy over the full military | temperature range. |
For | temperature range: 173.15 |
Typical | temperature range: 34 to 72°F (1 to 22°C) |
Ambient | temperature range: +10...+35°C |
The average | temperature ranges from 11 degrees in January to 25 in |
The average | temperature ranges from −2.4 °C (27.7 °F) in January, t |
r volcanic origin, in climates in which the | temperature ranges between 4 and 25 degrees C; where th |
Its | temperature ranges from 164 to 175 °F (73 to 79 °C) |
The | temperature ranges are similar to those of Kadina and t |
lso, a Bancroft point must lie in the valid | temperature ranges of the Antoine equation. |
Wide diurnal | temperature ranges are regular, due to the aridity and |
if grown in areas that have strong seasonal | temperature ranges with the leaves becoming a multitude |
The average | temperature ranges from −1.8 °C (28.8 °F) in January, t |
The | temperature ranges between 10 °C (50 °F) and 0 °C (32 ° |
The | temperature ranges from 20 to 44 degrees Celsius throug |
alled a temperate exoplanet as its cloudtop | temperature ranges from -20 degrees to 160 degrees Cels |
Temperature ranges between a minimum of 18oC in winter | |
aning it is yellowish white and its surface | temperature ranges from 6,000 to 7,500 kelvin. |
visiting is between May and August when the | temperature ranges from a max 35 C to a minimum of 10 C |
Heating is commenced, and the | temperature ranges at which the sample melts can be the |
e their prepupae spend the winter, when the | temperature ranges from about 20°C to 30°C. |
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