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| The role of combustion | temperature in NOx formation has been understood for so |
| llowed long-duration collection of climatic | temperature data. |
| For the case of strong | temperature rises, the feed of air can simply be broken |
| mospheric studies included monitoring of 3D | temperature and pressure fields, global mapping of wind |
| odel of the standard variation of pressure, | temperature, density, and viscosity with altitude in th |
| ted that this is not a direct effect of the | temperature per se but rather a result of the temperatu |
| but relative humidity is a function of both | temperature and absolute moisture content, so small tem |
| ensitivity should allow measurements of the | temperature of the CMB to within a few millionths of a |
| when the stone is heated over charcoal of a | temperature of about 1300 °C (2400 °F) for 20 to 30 min |
| O VIII lines probes the distribution of gas | temperature and density. |
| If only the variation of basal | temperature is required, absolute accuracy is not so im |
| ro rest mass, the description in terms of a | temperature is no longer appropriate after they become |
| an altitude chamber, capable of controlling | temperature, humidity and atmospheric pressure. |
| However, since the regions of the | temperature curve immediately before and after the endp |
| The main cause of the | temperature increase was a blockage in one of the spigo |
| ess that occurs under situations of intense | temperature and pressure where grains, atoms or molecul |
| urnt Victoria, Australia and reports of the | temperature reaching 117°F (or 47°C) in the capital of |
| uth Wales and a leader in the field of high | temperature super-conductors. |
| For practical purposes of scientific | temperature measurement, the International System of Un |
| ric layer under the assumptions of constant | temperature and gravity. |
| , a sounder to take readings of atmospheric | temperature and moisture, a solar x-ray imager to detec |
| o as part of the more general field of high | temperature corrosion. |
| to be a very reliable method of processing | temperature sensitive samples in the laboratory. |
| shale gas to shale oil depends of retorting | temperature and as a rule increases by the rise of temp |
| ternal energy, U, is only a function of the | temperature T; therefore the partial derivative of heat |
| (with J. E. Wilkins, Jr.) "Effect of the | Temperature of the Moderator on the Velocity Distributi |
| so, because 0° invites one to think of the | temperature water freezes at if you're a metric thinker |
| dence of a deliberate manipulation of world | temperature data by NASA and others. |
| Manipulation of annealing | temperature and magnesium ion (which stabilise DNA and |
| point - the oblique line the average of the | temperature. |
| There are many varieties of infrared | temperature sensing devices available today, including |
| "An Analysis of Recent Measurements of the | Temperature of the Cosmic Microwave Background Radiatio |
| Some people believe that the loss of tyre | temperature and pressure that results from such an exte |
| A combination of low | temperature and low relative humidity represents the op |
| Eight records of local | temperature variability on multi-centennial scales thro |
| solubility, caused by the high rise of the | temperature of the egg during the cooking process. |
| The coefficient is a function of surface | temperature, surface coverage and structural details as |
| ations of CRTM are retrievals of brightness | temperature and sea surface temperature from Advanced V |
| awn in the wet region and lines of constant | temperature are drawn in the superheated region. |
| New Zealand's official lowest | temperature of -21.6 °C was recorded at Ophir on 3 July |
| The Highest officially maximum | temperature in Villamontes, Bolivia ever recorded is 49 |
| hree different structures, depending on the | temperature and the state (solid, liquid, gas). |
| om egg laying to maturity, depending on the | temperature. |
| nds to 30 minutes, dependent largely on the | temperature of the air outside the bottle. |
| Goldsmith also experimented on the | temperature dependence of the solid solution between ca |
| ecies and cj is a constant dependent on the | temperature but not on the concentration. |
| ellite would also have returned data on the | temperature and magnetic field of its surroundings. |
| This movement very much depends on the | temperature of the area, the slope of the glacier, the |
| from the eggs in 3-10 days depending on the | temperature of the water. |
| ne month to several months depending on the | temperature of the area that the juice is fermenting in |
| This process depends on the | temperature but usually takes 2-3 days in tropical cond |
| re cooked in bulk and can be stored on room | temperature for a couple of days. |
| in the system and in general depend on the | temperature T. |
| The ratio varies slightly depending on the | temperature of the surrounding water, as well as other |
| of the Observations and Experiments on the | Temperature of Mines which have recently been made in C |
| lowing years he communicated papers on "The | Temperature of Mines", "On Granite Veins", and "On the |
| The ratio depends on the | temperature and pressure of both sample and water. |
| stances expand or contract depending on the | temperature in the room. |
| r-water system is dependent not only on the | temperature but also on the absolute pressure of the sy |
| ed that the spacecraft returned data on the | temperature and pressure in space, and the conditions o |
| he primer sets the upper limit on annealing | temperature. |
| magnitude of the refraction depends on the | temperature and water vapor concentration in the atmosp |
| ium chlorate are produced, depending on the | temperature. |
| e sponge's fermentation time depends on its | temperature and that of the surrounding area, the ingre |
| Oceanography: to obtain information on the | temperature structure of the ocean. |
| ated with Lockyer's pioneering work on star | temperature which led to theories of stellar evolution |
| ch is grown in a modified zone furnace on a | temperature gradient. |
| io of chlorophyll to carotenoids and on the | temperature of the water which favors one bacterium ove |
| at this phase, which is dependent on water | temperature, salinity and food supply. |
| navigation systems and the onboard standard | temperature and static pressure probes. |
| Once the | temperature is able to be controlled measurement of a v |
| erent origins, conversion from one absolute | temperature requires accounting for that. |
| he Met Office would also publish online the | temperature records for over 1,000 worldwide weather st |
| Because the only sub-ambient | temperature zone now is at the interface with the heat- |
| of industry experience with operating high | temperature catalytic processes, and the potential need |
| ws a strong correlation with optimal growth | temperature. |
| en-oxidizing bacterium whose optimal growth | temperature is around 70 to 75°C and was isolated from |
| for 30 min to an hour at an optimal growth | temperature before being observed. |
| al selection, RNA stability, optimal growth | temperature and hypersaline adaptation. |
| Its optimal growth | temperature is around 50°C, though it can survive at mu |
| iffers, however, because its optimal growth | temperature is nearly 100 oC and dwells at a greater se |
| sulfurococcales by having an optimal growth | temperature above 100 degrees °C, rather than below 100 |
| eration when choosing the optimal annealing | temperature is the melting temperature (Tm) of the prim |
| well up to 50°C, though its optimum growth | temperature is 37°C. |
| Optimum travel | temperature: 21°C (70°F) |
| Its optimum functional | temperature is between 60 and 65°C and it is denatured |
| which determines whether inside or outside | temperature is needed, it does not use the actual value |
| as gas exposure, light intensity or ambient | temperature) is non-directional. |
| equal, they would both change more or less | temperature equally, assuming equal mass-flow per unit |
| r diamond where chemical reactivity or high | temperature is a problem in grinding or cutting. |
| ETI or Electronic | Temperature Instruments is a worldwide manufacturer and |
| or have poorly controlled breathing or body | temperature. |
| ipper, either by a mechanical force or high | temperature. |
| erties change with increasing or decreasing | temperature. |
| at refers to the welcome he received or the | temperature is not clear. |
| otic stress, drought, high salinity or high | temperature. |
| ve poorly-controlled breathing rate or body | temperature, experience seizures or unusual body moveme |
| cold water lakes in stenothermal or limited | temperature change areas. |
| tudying the adaptation of such organisms to | temperature. |
| curs in magnesian iron skarn and other high | temperature contact metamorphic deposits. |
| Boilers and other high | temperature or pressure applications take advantage of |
| In Ottawa, the | temperature reached 36.3 °C (97.5 °F), but with close t |
| Therefore, our inversion | temperature is given where the sign flips at zero, or |
| e measurements, and that by leaving out the | temperature trend during the 20th century, the graph ob |
| tes the control of superheater outlet steam | temperature especially during start ups. |
| such as airspeed, altitude and outside air | temperature. |
| to true airspeed (TAS) by using Outside Air | Temperature (OAT), Pressure-altitude and CAS on an E6B |
| dicator should always be at the outside air | temperature to ensure that it is ready for use. |
| igned to become hotter than the outside air | temperature. |
| It thermally decomposes over a | temperature range of about 450-800 °C, releasing carbon |
| Heat capacity was measured over a | temperature range 12-300°K. |
| It thermally decomposes, over a | temperature range of approximately 220°C to 550°C, rele |
| He can raise his own body | temperature to the point where he can burst into flames |
| o a degree much higher than its own natural | temperature. |
| three turbinates are innervated by pain and | temperature receptors, via the trigeminal nerve (or, th |
| Further key parameters include | temperature, redox potential, and electrical conductivi |
| live green, depending on the particle size, | temperature and method of production. |
| "stress neutral" at some particular ambient | temperature. |
| This involves reducing a patient's body | temperature prior to an operation in order to reduce th |
| ly explainable by corresponding patterns of | temperature and precipitation (sometimes referred to as |
| and fatigue resistance, and performance in | temperature extremes. |
| Another hypothesis was that perhaps the | temperature controlled the growth of Orthoptera, which |
| During the pre-monsoon period, the | temperature reverses its trend. |
| ble thermometer that allows a person's core | temperature to be continuously monitored. |
| acillus is documented to have a wide pH and | temperature range, and complements the growth of L. aci |
| Small changes in pH and | temperature fluctuations also contribute to inaccuracy. |
| an depend on the presence of salts, pH, and | temperature, they can depend significantly on the amoun |
| pane with hydrogen fluoride in gas phase at | temperature between 250-400 °C, in presence of a cataly |
| sue one of the great goals in physics: room | temperature superconductivity. |
| plasma electron | temperature measurement (TEL). |
| We use platinum Resistance | Temperature Detectors (RTD's) mostly as they are more i |
| hermometers help recording and plotting the | temperature on a SmartPhone/PC/Laptop/Netbook/TabletPC. |
| dly cooled through its eutectoid point, the | temperature at which austenite becomes unstable. |
| t changed significantly over the poles, the | temperature of ice formation can be calculated as equil |
| If during poling the | temperature is lowered well below the glass-rubber tran |
| This resulted in a constant pool water | temperature of 72 degrees for AAU swim meets. |
| cluding membrane sizes, membrane pore size, | temperature, operating pressure and membrane surface ar |
| ctral type A5, meaning it possesses surface | temperature of 7,500 to 11,000 kelvins. |
| an be achieved by low-pH (and possibly high | temperature) processes related to the formation of pala |
| s of heat, which may raise the power supply | temperature, which is likely to decrease its efficiency |
| n unsanitary bottling/kegging practice than | temperature or time. |
| Requirement for precise denaturation | temperature control during PCR to within ± 0.3 °C (0.54 |
| dependent on the often not precisely known | temperature. |
| s 0.05091 AU, giving it a predicted surface | temperature of about 1782 K. |
| It prefers a | temperature of 20-28 C (68-82 F), a pH of 7.0 to 7.5 an |
| R. brevicaudatus prefers a | temperature between 70 and 80°F with a slight drop at n |
| 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). |
| It prefers a | temperature range of 72-79 degrees F (22-26 degrees C). |
| rtant to observe the prescribed preparation | temperature, because it affects the particle size of th |
| o tachometers, two sets of oil pressure and | temperature gauges and even two accelerator pedals. |
| service for cleaning and had no pressure or | temperature gauges that would have provided the workers |
| have an assumed or measured pressure and/or | temperature dependence (and/or the salinity of the aque |
| to fix nitrogen at atmospheric pressure and | temperature using titanocene. |
| Lu2O3 and PdO (formed at high pressure and | temperature in the presence of potassium chlorate) has |
| ence of measuring the previous pressure and | temperature history of a metamorphic or intrusive igneo |
| cally any mixture composition, pressure and | temperature. |
| riginal composition of and the pressure and | temperature experienced by the protolith (parent rock), |
| he volume of a gas (at a given pressure and | temperature) is proportional to the number of atoms or |
| By simulating pressure surge, | temperature and fluid flow rates system-wide, engineers |
| ed by the compressor to a high pressure and | temperature gaseous state. |
| log10 of methane vapor pressure vs. | temperature. |
| monds may be produced by high pressure high | temperature (HTPT) method or chemical vapor deposition |
| mperature conditions up to the pressure and | temperature conditions throughout the Earth's crust. |
| sonde data (relative humidity, pressure and | temperature) over the whole atmosphere. |
| This is why the pressure and | temperature must be stated in order for a volume measur |
| The high pressure and | temperature gas then enters the condenser. |
| med at different conditions of pressure and | temperature, has the same chemical composition but a re |
| at a finite volume or non-zero pressure and | temperature, and the ideal state, usually at zero press |
| The LOC varies with pressure and | temperature. |
| The higher the pressure and | temperature in which the rock formed, the higher the gr |
| rock, it indicates the minimum pressure and | temperature the protolith must have achieved in order f |
| ondenser precipitates the high pressure and | temperature gas to a high temperature liquid by transfe |
| rocess, significant changes in pressure and | temperature can occur to the fluid and yet the process |
| that under conditions of high pressure and | temperature as exist in the mantle the mineral tends to |
| One m3 of methanol at ambient pressure and | temperature contains 1.660 Nm3 of hydrogen (H2) compare |
| n mixture is liquid at ambient pressure and | temperature. |
| the laboratory used the high pressure high | temperature method to make diamonds for use in optics a |
| rate typically increases with pressure and | temperature. |
| se reactions frequently have a pressure and | temperature dependence region of transition between sec |
| ntaneously after the threshold pressure and | temperature are applied, but has induction time. |
| iven gas volume depends on the pressure and | temperature. |
| ntials are: force, sound pressure, voltage, | temperature. |
| ght, freezing, a change in pH, pressure, or | temperature). |
| nters the compressor in a low pressure, low | temperature, gaseous form. |
| It is a high pressure, high | temperature gas condensate field with initial reservoir |
| bstrate, the surface pressure, composition, | temperature, and pH of the subphase. |
| d steam is heated at constant pressure, its | temperature will rise, producing superheated steam. |
| om the container so as to prevent excessive | temperature gradients. |
| largest fluctuations of the primordial CMB | temperature occur on angular scales of about 1°. |
| To add to the problem, the | temperature inversion that day added to the heat, smoke |
| handling during the winemaking process with | temperature control during fermentation and a sensitivi |
| uring the quiescent period of the process a | temperature gradient in the fluid emerged. |
| of distillation (a separation process) for | temperature sensitive materials like natural aromatic c |
| nt on control of the processing parameters: | temperature, pressure and time - a typical cycle time b |
| thstands attack by a laser beam producing a | temperature of 10,000 degrees Celsius. |
| use such a complex method for producing low | temperature gases when they could be produced much more |
| Given an atmospheric profile of | temperature, variable gas concentrations, cloud and sur |
| e with respect to an equilibrium profile of | temperature with depth (for the present mean annual sur |
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