sean paul temperature



temperature

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For the song by Sean Paul, see Temperature (song)

In thermodynamics, temperature is a measure of the tendency of an object or system to spontaneously give up energy. Temperature is a physical property of a system that underlies the common notions of "hot" and "cold", in which something that is hotter has the greater temperature. Temperature arises from the random microscopic motions of matter, where temperature is related to the average energy of these microscopic motions. The concept of temperature, defined as a tension associated with entropy, follows from the zeroth law of thermodynamics.

Temperature is measured with thermometers that may be calibrated to a variety of temperature scales. Throughout the world (except for the U.S.), the Celsius scale is used for most temperature measuring purposes. The entire scientific world (the U.S. included) measures temperature in kelvins on the thermodynamic (absolute) temperature scale and in Celsius. Many engineering fields in the U.S., especially high-tech ones, also use the kelvin and Celsius scales. The bulk of the U.S. however, (its lay people, industry, meteorology, and government) relies upon the Fahrenheit scale. Other engineering fields in the U.S. also rely upon the Rankine scale when working in thermodynamic-related disciplines such as combustion.

Contents

  • 1 Overview
  • 2 Details
  • 3 The role of temperature in nature
  • 4 Temperature measurement
    • 4.1 Units of temperature
    • 4.2 Negative temperatures
    • 4.3 Articles about temperature ranges:
  • 5 Comparison of temperature scales
  • 6 Theoretical foundation of temperature
    • 6.1 Zeroth-law definition of temperature
    • 6.2 Temperature in gases
    • 6.3 Temperature of the vacuum
    • 6.4 Second-law definition of temperature
  • 7 See also
  • 8 References
  • 9 External links

Overview

Temperature is a measure of the average energy contained in the microscopic degrees of freedom of a system. For example, in an ideal gas, the relevant degrees of freedom are translational, rotational, and vibrational motion of the individual molecules. In this case, temperature is proportional to the mean kinetic energy of the constituent atoms. But in more complicated systems, magnetic, electronic, photonic, or other exotic degrees of freedom can play a significant role in determining temperature.

Thermal motion is the reason gasses have pressure, since the particles in the gas collide with the walls of the container and exert an outward force. Although very specialized laboratory equipment is required to directly detect thermal motions, thermal collisions by atoms or molecules with small particles suspended in a fluid produces Brownian motion that can be seen with an ordinary microscope. The thermal motions of atoms are very fast and temperatures close to absolute zero are required to directly observe them. For instance, when scientists at the NIST achieved a record-setting cold temperature of 700 nK (billionths of a kelvin) in 1994, they used optical lattice laser equipment to adiabatically cool caesium atoms. They then turned off the entrapment lasers and directly measured atom velocities of 7 mm per second in order to calculate their temperature.

Molecules, such as O2, have more degrees of freedom than single atoms: they can have rotational and vibrational motions as well as translational motion. An increase in temperature will cause the average translational energy to increase. It will also cause the energy associated with vibrational and rotational modes to increase. Thus a diatomic gas, with extra degrees of freedom like rotation and vibration, will require a higher energy input to change the temperature by a certain amount, i.e. it will have a higher heat capacity than a monatomic gas.

The process of cooling involves removing energy from a system. When there is no more energy able to be removed, the system is said to be at absolute zero, which is the point on the thermodynamic (absolute) temperature scale where all kinetic motion in the particles comprising matter ceases and they are at complete rest in the “classic” (non-quantum mechanical) sense. By definition, absolute zero is a temperature of precisely 0 kelvins (–273.15 °C or –459.67 °F).

Details

The formal properties of temperature are studied in thermodynamics and statistical mechanics. The temperature of a system at thermodynamic equilibrium is defined by a relation between the amount of heat δQ incident on the system during an infinitesimal quasistatic transformation, and the variation δS of its entropy during this transformation.

Contrary to entropy and heat, whose microscopic definitions are valid even far away from thermodynamic equilibrium, temperature can only be defined at thermodynamic equilibrium, or local thermodynamic equilibrium (see below).

As a system receives heat its temperature rises, similarly a loss of heat from the system tends to decrease its temperature (at the - uncommon - exception of negative temperature, see below).

When two systems are at the same temperature, no heat transfer occurs between them. When a temperature difference does exist, heat will tend to move from the higher-temperature system to the lower-temperature system, until they are at thermal equilibrium. This heat transfer may occur via conduction, convection or radiation (see heat for additional discussion of the various mechanisms of heat transfer).

Temperature is also related to the amount of internal energy and enthalpy of a system. The higher the temperature of a system, the higher its internal energy and enthalpy are.

Temperature is an intensive property of a system, meaning that it does not depend on the system size or the amount of material in the system. Other intensive properties include pressure and density. By contrast, mass and volume are extensive properties, and depend on the amount of material in the system.

The role of temperature in nature

Temperature plays an important role in almost all fields of science, including physics, chemistry, and biology.

Many physical properties of materials including the phase (solid, liquid, gaseous or plasma), density, solubility, vapor pressure, and electrical conductivity depend on the temperature. Temperature also plays an important role in determining the rate and extent to which chemical reactions occur. This is one reason why the human body has several elaborate mechanisms for maintaining the temperature at 37 °C, since temperatures only a few degrees higher can result in harmful reactions with serious consequences. Temperature also controls the type and quantity of thermal radiation emitted from a surface. One application of this effect is the incandescent light bulb, in which a tungsten filament is electrically heated to a temperature at which significant quantities of visible light are emitted.

Temperature-dependence of the speed of sound in air c, density of air ρ and acoustic impedance Z vs. temperature °C

Impact of temperature on speed of sound, air density and acoustic impedance
T in °C c in m/s ρ in kg/m³ Z in N·s/m³
−10 325.4 1.341 436.5
−5 328.5 1.316 432.4
0 331.5 1.293 428.3
5 334.5 1.269 424.5
10 337.5 1.247 420.7
15 340.5 1.225 417.0
20 343.4 1.204 413.5
25 346.3 1.184 410.0
30 349.2 1.164 406.6

Temperature measurement

Main article: Temperature measurement, see also The International Temperature Scale.

Temperature measurement using modern scientific thermometers and temperature scales goes back at least as far as the early 18th century, when Gabriel Fahrenheit adapted a thermometer (switching to mercury) and a scale both developed by Ole Christensen Rømer. Fahrenheit's scale is still in use, alongside the Celsius scale and the Kelvin scale.

Units of temperature

The basic unit of temperature (symbol: T) in the International System of Units (SI) is the kelvin (K). One kelvin is formally defined as exactly 1/273.16 of the temperature of the triple point of water (the point at which water, ice and water vapor exist in equilibrium). This puts the freezing point of water (which cannot be measured with high precision) and the zero point of the Celsius scale at 273.15, not 273.16. The (unattainable) temperature 0 K is called absolute zero and corresponds to the point at which the molecules and atoms have the least possible thermal energy. An important unit of temperature in theoretical physics is the Planck temperature (1.4 × 1032 K).

In the field of plasma physics, because of the high temperatures encountered and the electromagnetic nature of the phenomena involved, it is customary to express temperature in electronvolts (eV) or kiloelectronvolts (keV), where 1 eV = 11,605 K. In the study of QCD matter one routinely meets temperatures of the order of a few hundred MeV, equivalent to about 1012 K.

For everyday applications, it is often convenient to use the Celsius scale, in which 0 °C corresponds to the temperature at which water freezes and 100 °C corresponds to the boiling point of water at sea level. In this scale a temperature difference of 1 degree is the same as a 1 K temperature difference, so the scale is essentially the same as the Kelvin scale, but offset by the temperature at which water freezes (273.15 K). Thus the following equation can be used to convert from degrees Celsius to kelvins.

In the United States, the Fahrenheit scale is widely used. On this scale the freezing point of water corresponds to 32 °F and the boiling point to 212 °F. The following formula can be used to convert from Fahrenheit to Celsius:

See temperature conversion formulas for conversions between most temperature scales.

Negative temperatures

See main article: Negative temperature.

For some systems and specific definitions of temperature, it is possible to obtain a negative temperature. A system with a negative temperature is not colder than absolute zero, but rather it is, in a sense, hotter than infinite temperature.

Articles about temperature ranges:

  • 10−12 K = 1 picokelvin (pK)
  • 10−9 K = 1 nanokelvin (nK)
  • 10−6 K = 1 microkelvin (µK)
  • 10−3 K = 1 millikelvin (mK)
  • 100 K = 1 kelvin
  • 101 K = 10 kelvins
  • 102 K = 100 kelvins
  • 103 K = 1,000 kelvins = 1 kilokelvin (kK)
  • 104 K = 10,000 kelvins = 10 kK
  • 105 K = 100,000 kelvins = 100 kK
  • 106 K = 1 megakelvin (MK)
  • 109 K = 1 gigakelvin (GK)
  • 1012 K = 1 terakelvin (TK)

See Orders of magnitude (temperature).

Comparison of temperature scales

Comparison of temperature scales
Comment Kelvin Celsius Fahrenheit Rankine Delisle Newton Réaumur Rømer
Absolute zero 0 −273.15 −459.67 0 559.725 −90.14 −218.52 −135.90
Lowest recorded surface temperature on Earth
(Vostok, Antarctica - July 21, 1983)		 184 −89 −128.2 331.47 283.5 −29.37 −71.2 −39.225
Fahrenheit's ice/salt mixture 255.37 −17.78 0 459.67 176.67 −5.87 −14.22 −1.83
Ice melts (at standard pressure) 273.15 0 32 491.67 150 0 0 7.5
Average surface temperature on Earth 288 15 59 518.67 127.5 4.95 12 15.375
Average human body temperature ¹ 309.95 36.8 98.24 557.91 94.8 12.144 29.44 26.82
Highest recorded surface temperature on Earth
(Al 'Aziziyah, Libya - September 13, 1922)		 331 58 136.4 596.07 63 19.14 46.4 37.95
Water boils (at standard pressure) 373.1339 99.9839 211.97102 671.64102 0 33 80 60
Titanium melts 1941 1668 3034 3494 −2352 550 1334 883
The surface of the Sun 5800 5526 9980 10440 −8140 1823 4421 2909

¹ Normal human body temperature is 36.8 °C ±0.7 °C, or 98.2 °F ±1.3 °F. The commonly given value 98.6 °F is simply the exact conversion of the nineteenth-century German standard of 37 °C. Since it does not list an acceptable range, it could therefore be said to have excess (invalid) precision. Here's a list of various measurements.
Some numbers in this table have been rounded off.

Theoretical foundation of temperature

Zeroth-law definition of temperature

While most people have a basic understanding of the concept of temperature, its formal definition is rather complicated. Before jumping to a formal definition, let us consider the concept of thermal equilibrium. If two closed systems with fixed volumes are brought together, so that they are in thermal contact, changes may take place in the properties of both systems. These changes are due to the transfer of heat between the systems. When a state is reached in which no further changes occur, the systems are in thermal equilibrium.

Now a basis for the definition of temperature can be obtained from the so-called zeroth law of thermodynamics which states that if two systems, A and B, are in thermal equilibrium and a third system C is in thermal equilibrium with system A then systems B and C will also be in thermal equilibrium (being in thermal equilibrium is a transitive relation; moreover, it is an equivalence relation). This is an empirical fact, based on observation rather than theory. Since A, B, and C are all in thermal equilibrium, it is reasonable to say each of these systems shares a common value of some property. We call this property temperature.

Generally, it is not convenient to place any two arbitrary systems in thermal contact to see if they are in thermal equilibrium and thus have the same temperature. Also, it would only provide an ordinal scale.

Therefore, it is useful to establish a temperature scale based on the properties of some reference system. Then, a measuring device can be calibrated based on the properties of the reference system and used to measure the temperature of other systems. One such reference system is a fixed quantity of gas. The ideal gas law indicates that the product of the pressure and volume (P · V) of a gas is directly proportional to the temperature:

(1)

where 'T is temperature, n is the number of moles of gas and R is the gas constant. Thus, one can define a scale for temperature based on the corresponding pressure and volume of the gas: the temperature in kelvins is the pressure in pascals of one mole of gas in a container of one cubic metre, divided by 8.31... In practice, such a gas thermometer is not very convenient, but other measuring instruments can be calibrated to this scale.

Equation 1 indicates that for a fixed volume of gas, the pressure increases with increasing temperature. Pressure is just a measure of the force applied by the gas on the walls of the container and is related to the energy of the system. Thus, we can see that an increase in temperature corresponds to an increase in the thermal energy of the system. When two systems of differing temperature are placed in thermal contact, the temperature of the hotter system decreases, indicating that heat is leaving that system, while the cooler system is gaining heat and increasing in temperature. Thus heat always moves from a region of high temperature to a region of lower temperature and it is the temperature difference that drives the heat transfer between the two systems.

Temperature in gases

For a monatomic ideal gas the temperature is related to the translational motion or average speed of the atoms. The kinetic theory of gases uses statistical mechanics to relate this motion to the average kinetic energy of atoms and molecules in the system. This average energy is independent of particle mass, which seems counterintuitive to many people. Although the temperature is related to the average kinetic energy of the particles in a gas, each particle has its own energy which may or may not correspond to the average. However, after an examination of some basic physics equations it makes perfect sense. The second law of thermodynamics states that any two given systems when interacting with each other will later reach the same average energy. Temperature is a measure related to the average kinetic energy of a system. The formula for the kinetic energy of an atom is:

(Note that a calculation of the kinetic energy of a more complicated object, such as a molecule, is slightly more involved. Additional degrees of freedom are available, so molecular rotation or vibration must be included.)

Thus, particles of greater mass (say a neon atom relative to a hydrogen molecule) will move slower than lighter counterparts, but will have the same average energy. This average energy is independent of the mass because of the nature of a gas, all particles are in random motion with collisions with other gas molecules, solid objects that may be in the area and the container itself (if there is one). A visual illustration of this from Oklahoma State University makes the point more clear. Particles with different mass have different velocity distributions, but the average kinetic energy is the same because of the ideal gas law. In a gas the distribution of energy (and thus speeds) of the particles corresponds to the Boltzmann distribution.

Temperature of the vacuum

The temperature of an object is proportional to the average kinetic energy of the molecules in it. In a pure vacuum, there are no molecules. There is nothing to measure the kinetic energy of, and temperature is undefined. If a thermometer were placed in a vacuum, the reading would be a measurement of the internal temperature of the thermometer, not of the vacuum which surrounds it.

All objects emit black body radiation. Over time, a thermometer in a pure vacuum will radiate away thermal energy, decreasing in temperature indefinitely until it reaches the zero-point energy limit.

In practice, there is no such thing as a pure vacuum since there will always be photons associated with the black body radiation of the walls of the vacuum. A thermometer orbiting the Earth can easily absorb energy from sunlight faster than it can radiate it away. This can lead to a dramatic temperature increase.

A thermometer isolated from solar radiation (in the shade of a larger body, for example) is still exposed to Cosmic microwave background radiation. In this case, the temperature will change until the rate of energy loss and gain are in equilibrium. At this point, the thermometer will have a temperature of 2.725 K, which is often referred to as the temperature of space.

Second-law definition of temperature

In the previous section temperature was defined in terms of the Zeroth Law of thermodynamics. It is also possible to define temperature in terms of the second law of thermodynamics, which deals with entropy. Entropy is a measure of the disorder in a system. The second law states that any process will result in either no change or a net increase in the entropy of the universe. This can be understood in terms of probability. Consider a series of coin tosses. A perfectly ordered system would be one in which every coin toss would come up either heads or tails. For any number of coin tosses, there is only one combination of outcomes corresponding to this situation. On the other hand, there are multiple combinations that can result in disordered or mixed systems, where some fraction are heads and the rest tails. As the number of coin tosses increases, the number of combinations corresponding to imperfectly ordered systems increases. For a very large number of coin tosses, the number of combinations corresponding to ~50% heads and ~50% tails dominates and obtaining an outcome significantly different from 50/50 becomes extremely unlikely. Thus the system naturally progresses to a state of maximum disorder or entropy.

We previously stated that temperature controls the flow of heat between two systems and we have just shown that the universe, and we would expect any natural system, tends to progress so as to maximize entropy. Thus, we would expect there to be some relationship between temperature and entropy. In order to find this relationship let's first consider the relationship between heat, work and temperature. A heat engine is a device for converting heat into mechanical work and analysis of the Carnot heat engine provides the necessary relationships we seek. The work from a heat engine corresponds to the difference between the heat put into the system at the high temperature, qH and the heat ejected at the low temperature, qC. The efficiency is the work divided by the heat put into the system or:

(2)

where wcy is the work done per cycle. We see that the efficiency depends only on qC/qH. Because qC and qH correspond to heat transfer at the temperatures TC and TH, respectively, qC/qH should be some function of these temperatures:

(3)

Carnot's theorem states that all reversible engines operating between the same heat reservoirs are equally efficient. Thus, a heat engine operating between T1 and T3 must have the same efficiency as one consisting of two cycles, one between T1 and T2, and the second between T2 and T3. This can only be the case if:

which implies:

q13 = f(T1,T3) = f(T1,T2)f(T2,T3)

Since the first function is independent of T2, this temperature must cancel on the right side, meaning f(T1,T3) is of the form g(T1)/g(T3) (i.e. f(T1,T3) = f(T1,T2)f(T2,T3) = g(T1)/g(T2g(T2)/g(T3) = g(T1)/g(T3)), where g is a function of a single temperature. We can now choose a temperature scale with the property that:

(4)

Substituting Equation 4 back into Equation 2 gives a relationship for the efficiency in terms of temperature:

(5)

Notice that for TC = 0 K the efficiency is 100% and that efficiency becomes greater than 100% below 0 K. Since an efficiency greater than 100% violates the first law of thermodynamics, this implies that 0 K is the minimum possible temperature. In fact the lowest temperature ever obtained in a macroscopic system was 20 nK, which was achieved in 1995 at NIST. Subtracting the right hand side of Equation 5 from the middle portion and rearranging gives:

where the negative sign indicates heat ejected from the system. This relationship suggests the existence of a state function, S, defined by:

(6)

where the subscript indicates a reversible process. The change of this state function around any cycle is zero, as is necessary for any state function. This function corresponds to the entropy of the system, which we described previously. We can rearranging Equation 6 to get a new definition for temperature in terms of entropy and heat:

(7)

For a system, where entropy S may be a function S(E) of its energy E, the temperature T is given by:

(8)

The reciprocal of the temperature is the rate of increase of entropy with energy.

See also

  • Absolute zero
  • Body temperature (Thermoregulation)
  • Celsius
  • Color temperature (black body radiation)
  • Entropy
  • Fahrenheit
  • Heat
  • Heat conduction
  • ITS-90
  • Kelvin
  • Maxwell's demon
  • Rankine
  • Thermodynamic (absolute) temperature
  • Thermometer
  • Thermography
  • Triple point
  • Wet Bulb Globe Temperature
Meteorological data and variables

Atmospheric pressure | CAPE | CIN | Dew point | Heat index | Humidex | Humidity | Pot T | Sea surface temperature | Temperature | Theta-e | Visibility | Vorticity | Wind chill


References

  • Kroemer, Herbert; Kittel, Charles (1980). Thermal Physics (2nd ed.). W. H. Freeman Company. ISBN 0-7167-1088-9.

External links

Look up Temperature in
Wiktionary, the free dictionary.
  • An elementary introduction to temperature aimed at a middle school audience
  • Why do we have so many temperature scales?
  • A Brief History of Temperature Measurement
  • Temperature units online conversion
Temperature scales
Celsius Fahrenheit Kelvin
Delisle Leiden Newton Rankine Réaumur Rømer
Conversion formulas
Search Term: "Temperature"
temperature news and temperature articles

Here's our top rated temperature links for the day:

Researcher Says Water Temperature Triggers Salmon Runs 

Oregon Public Broadcasting - Nov 16 2:33 PM
An Idaho researcher says he's come to believe that water temperature is the key trigger for salmon to return to their spawning grounds.

Onset's HOBO Temperature Logger Kit 
MacNN - Nov 16 6:12 AM
Onset Computer has unveiled a new computerized temperature-tracking product for consumers that provides adetailed, visual profile of household heat and air conditioning usage. Designed to help reduce energy costs, the new HOBO Temperature Logger Kit combines a HOBO Data Logger - a compact, battery-powered temperature recording device - and accompan...

SCI-KIDS: Temperature affects all forms of life on Earth 
Richmond Times-Dispatch - Nov 15 5:49 PM
Sun and temperature are powerful signals to plants and animals. As our planet revolves around the sun, the Northern Hemisphere alternately points toward the sun (during spring and summer) and away from the sun (during fall and winter).

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274. temperature seanpaul
275. temperature zones
276. wine storage temperature
277. world temperature
278. 1998 chevy cavalier changing engine temperature sensor
279. ac dc extended power supply temperature
280. basal temperature
281. bioelectric impedance temperature effect
282. capacitor electrolytic wide temperature range
283. glass transition temperature
284. high temperature
285. high temperature silicone
286. horse temperature
287. low temperature
288. lyrics for temperature
289. plastic viscosity temperature
290. pressure temperature chart
291. sean-paul - temperature
292. steel temperatures
293. temperature and humidity and measurement
294. temperature for boiling water
295. temperature in the amazon this year
296. temperature lesson plan
297. temperature of jacuzzi
298. temperature rise ampacity
299. temperature the song
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304. boiling water temperature
305. chart of earths past temperature
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307. converting temperature
308. diesel exhaust temperature
309. fuel autoignition temperature
310. grilling filet mignon temperature
311. heat exchanger inlet outlet temperature prediction
312. high temperature gaskets
313. how the wind direction causes air temperatures to increase
314. infrared temperature transmitter
315. kilauea hike temperature
316. la crosse technology tx6u wireless temperature sensor
317. normal room temperature
318. ocean water temperatures
319. past temperatures
320. refrigerator temperatures
321. sea surface temperatures
322. sun's temperature
323. temperature humidity monitor
324. temperature measures
325. temperature scale
326. temperature to store red wine
327. what temperature does rubber melt at
328. what water temperature is best to use when gardening
329. wind direction affecting temperature
330. yearly temperatures in germany
331. average health office safety temperature
332. boiling point temperature of water
333. bread proofing temperature
334. btu temperature relationship
335. cpu temperature monitoring software
336. dc generator brush temperature
337. density and temperature
338. direct vent fireplace temperature
339. distilled water boiling temperature
340. health and safety swimming pool temperatures
341. historical temperature data
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344. ideal bedroom temperature
345. intel core 2 duo temperature heat
346. kurata stockmayer theta temperatures
347. lake michigan temperature
348. ranco temperature controller
349. rectal temperatures
350. roast beef temperatures
351. saint petersburg beach water temperature
352. sea temperatures
353. standard temperature and pressure
354. temperature and humidity monitoring
355. temperature calculator
356. temperature change with altitude
357. temperature convertor
358. temperature mapping readers
359. temperature monitoring software
360. temperature of boiling water
361. temperature records
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363. the link between wind direction and temperature
364. transmission temperature gauge for silverado
365. why does alcohol lower the boiling temperature of water
366. world record high temperature
367. 3m high temperature butt connectors
368. alarm clock radio cd temperature
369. ambient air temperature
370. atlantic ocean temperature
371. atlantic ocean temperatures
372. average temperature maps of florida
373. average temperature near the equator in fahrenheit
374. average temperature north carolina
375. average temperatures for murphy nc
376. boiling comparing temperature water
377. boiling temperature
378. brownsville temperature history
379. candlemaking temperature
380. cold junction temperature
381. compare depth and temperature in a river
382. computer temperature monitor
383. computer temperature panels
384. cooking temperatures
385. cooking temperatures roast beef
386. current ocean temperatures
387. effect of temperature on enzyme activity
388. experimental procedures on boiling water temperature changes
389. factors affect glass transition temperature
390. filet mignon cooking temperature
391. gulf of mexico water temperature
392. how to take a dog's temperature
393. industrial high temperature paint
394. liquid nitrogen temperature
395. nurse taking rectal temperature
396. oil temperature
397. omega temperature
398. record high temperature in sevilla
399. reformation temperature of methane
400. spike in low temperatures
401. take temperature
402. temperature in a closed automobile
403. temperature indicating paint
404. temperature multiplexer data acquisition logger
405. temperature related problems with toshiba tecra m2
406. why is temperature important
407. aquarium temperature
408. automotive exhaust gas temperature
409. average temperature and leadville and colorado
410. baby body temperature
411. bermuda grass soil temperatures
412. best color temperature for digital photography
413. body core temperature
414. computer temperature monitoring software
415. conversion temperature
416. cooking instructions temperature for filet mignon
417. coolant temperature sensor
418. correct freezer temperature
419. cricket temperature
420. decreasing boiling temperature of water
421. desert temperatures
422. dew point temperature
423. does salt effect the temperature of boiling water
424. earth temperature history
425. factors affecting temperature
426. filet mignon temperature
427. fish freshwater tank temperature
428. flame temperatures stove
429. geothermal entering water temperature
430. graph oxygen solubility versus temperature
431. high temperature electronics
432. highest recorded temperature on earth
433. how much salt dissolved in which temperatures
434. how to save money on home heating temperature
435. ignition temperatures
436. jupiter's temperature
437. la crosse technology ws 7034u wireless temperature station
438. lacrosse technology tx6u wireless temperature sensor
439. mexico annual temperatures
440. motherboard temperature monitoring software
441. normal human body temperature
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444. ocean water temperature
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448. speed and temperature fishing
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455. temperature sensor tolerance
456. temperature to cook beef steak
457. testing temperature of water
458. tropical dry forest monthly temperature
459. what is room temperature
460. what was the temperature in new york yesterday
461. wine temperature
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463. 3 temperature electric water dispenser
464. alaska temperatures
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466. average temperature fort worth
467. average temperatures in calif
468. basal temperature chart
469. body temperature and cervical mucas when pregnant
470. boiling temperature for water
471. camaro where temperature gauge sending
472. cat engine power vs inlet air temperature
473. computer monitoring software temperature
474. condenser temperature 134a chart pressure
475. cooking filet instructions mignon temperature
476. cyprus temperatures
477. density function of temperature
478. diesel turbo charger temperature
479. differential oil temperature
480. does salt affect the temperature of boiling water
481. dogs temperature
482. exhaust temperature reading
483. exporters of temperature gauges
484. external temperature wrong trailblazer
485. fike rupture disk temperature
486. flame temperature
487. ford temperature gauge
488. freshwater fish temperature
489. garmin 120 temperature
490. global temperature
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492. high temperature fiber optic cable
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495. historical water temperature potomac river
496. homemade temperature controller
497. honeywell temperature controller
498. hottest temperature ever recorded
499. how to convert temperature
500. how wind direction will cause the temperature to go up