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But if the mechanism is set on the lecture table, the sound suddenly becomes very loud as a result of the resonance.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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Detects and regulates the level of ambient sounds -- Weak sounds are amplified and loud sounds are attenuated.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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Hearing aids amplify sound so that it's loud enough to be perceived.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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Inner ear mechanisms that amplify and reduce loud sounds are damaged by noise.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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Loud sounds are not amplified, and are heard as though there were no hearing instrument.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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Loud sounds become garbled and uncomfortable.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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Nonlinear hearing aids are designed to amplify a wide range of sounds so that they are audible to the hearing-impaired listener without becoming uncomfortably loud.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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Point at which loudness and shrillness of sound become painful.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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Prevent normally loud sounds from becoming uncomfortable.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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Safe Loud sounds are not amplified.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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Soft sounds hereby get amplified more than loud sounds.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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The balani gourds, like a closed bathroom, resonate one voice just slightly, but if there are seventeen voices in the bathroom, all talking fast and loud simultaneously, each individual voice becomes blurred and the overall sound "hums".
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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The pulmonary component of the second heart sound becomes loud.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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The resonance causes the sound to be amplified and allows the call to carry further.
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Amplified, it becomes louder happens do the sound during a resonance.
| 1entails
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The sound of her sucking seemed loud, amplified by the hard walls of the cellar.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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The sound system can amplify the direct sound, making the overall sound much louder, but is likely to become uncomfortably loud before overpowering the reverberation.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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The worm SOUND becomes unbearably loud.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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These sounds may become very loud.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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When this current is amplified and fed into a loud speaker, a reproduction of the original sound emerges.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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Yet, in the absence of resonance, the sound of these vibrations is not loud enough to discern.
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Amplified, it becomes louder happens do the sound during a resonance.
| 0neutral
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3 catalyst reaction chambers;
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If a catalyst runs out, the reaction slows.
| 0neutral
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A negative catalyst (inhibitor, retarder) slows down a chemical reaction.
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If a catalyst runs out, the reaction slows.
| 0neutral
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A small reaction scale allows you to use a single batch of catalyst in order to minimize run-to-run variability.
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If a catalyst runs out, the reaction slows.
| 0neutral
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Besides, the exchange reactions of deuterium between hydrogen and water require a slow and suitable catalyst, taking into account the slow nature of these reactions.
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If a catalyst runs out, the reaction slows.
| 0neutral
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But tweaking the catalyst and reaction conditions (such as temperature and whether the reaction is run in water or alcohol or some other solvent) could make the enzyme mimic into a commercially viable catalyst.
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If a catalyst runs out, the reaction slows.
| 0neutral
|
Catalyst for slow transits;
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If a catalyst runs out, the reaction slows.
| 0neutral
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Catalysts And Catalytic Reactions 5.
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If a catalyst runs out, the reaction slows.
| 0neutral
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Catalysts The kinetics of the above reaction are impractically slow at room temperature, often requiring several days to reach completion.
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If a catalyst runs out, the reaction slows.
| 0neutral
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Catalysts are required for the reaction to be usable;
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If a catalyst runs out, the reaction slows.
| 0neutral
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Catalysts that slow the reaction are called negative catalysts, or inhibitors.
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If a catalyst runs out, the reaction slows.
| 0neutral
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Goals To explore the kinetics of a slow redox reaction To determine the rate law To explore the effect of a catalyst on the reaction rate Background Kinetics and Thermodynamics.
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If a catalyst runs out, the reaction slows.
| 0neutral
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If mercury compounds are used as catalysts, an alternative is to simply eliminate the catalyst and let the reaction run longer.
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If a catalyst runs out, the reaction slows.
| 0neutral
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Reaction times can run as long as 6 days, and the catalyst is not recyclable.
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If a catalyst runs out, the reaction slows.
| 0neutral
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Since the pH-optimum of 4 to 6 cannot be achieved by adding a catalyst due to associated toxicity, the reaction is slow in live cells.
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If a catalyst runs out, the reaction slows.
| 0neutral
|
The Effect of Catalysts on Reaction Rates.
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If a catalyst runs out, the reaction slows.
| 0neutral
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The reaction was run with varying concentrations of reactants and copper catalyst, as well as varying temperatures.
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If a catalyst runs out, the reaction slows.
| 0neutral
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Use mercury-free catalysts or simply let the reactions run longer.
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If a catalyst runs out, the reaction slows.
| 0neutral
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When mercury compounds are used as catalysts for reactions one alternative is to eliminate the catalyst and simply let the reaction run longer.
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If a catalyst runs out, the reaction slows.
| 0neutral
|
When mercury compounds are used as catalysts for reactions, one alternative is to eliminate the catalyst and simply let the reaction run longer.
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If a catalyst runs out, the reaction slows.
| 0neutral
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Without a catalyst, however, no oxygen is produced because the reaction is too slow.
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If a catalyst runs out, the reaction slows.
| 1entails
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and catalysts accelerate the reaction also.
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If a catalyst runs out, the reaction slows.
| 0neutral
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catalyst reaction chamber;
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If a catalyst runs out, the reaction slows.
| 0neutral
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Current programs for gene assignment are based largely on characteristics of protein sequences such as start and stop codons, ribosome binding site, and amino acid coding biases which are not applicable to RNA coding regions.
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When a chain of amino acids reaches a stop codon, released from the ribosome.
| 0neutral
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In association with the ribosome, the amino acids are then chemically bonded together into a chain, forming a polypeptide.
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When a chain of amino acids reaches a stop codon, released from the ribosome.
| 0neutral
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Once the amino acid-tRNA complex is bound the ribosome reads the next codon and the complementary amino acid-tRNA complex binds.
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When a chain of amino acids reaches a stop codon, released from the ribosome.
| 0neutral
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TO carry amino acids to the ribosome so the amino acids can be added to the growing amino acid chain.
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When a chain of amino acids reaches a stop codon, released from the ribosome.
| 0neutral
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The mRNA is, in turn, translated on a ribosome into a chain of amino acids otherwise known as a polypeptide.
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When a chain of amino acids reaches a stop codon, released from the ribosome.
| 0neutral
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This releases an A chain fragment containing a Bam HII site preceeding the ATG start, and the first 196 amino acid codons of the mature A chain sequence.
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When a chain of amino acids reaches a stop codon, released from the ribosome.
| 0neutral
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When the stop codon is read the chain of amino acids (protein) will be released from the ribosome structure.
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When a chain of amino acids reaches a stop codon, released from the ribosome.
| 1entails
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Within the ribosome, transfer RNA molecules recognise specific trinucleotide codons on the mRNA, and add their cognate amino acids to nascent protein chains.
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When a chain of amino acids reaches a stop codon, released from the ribosome.
| 0neutral
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occurs when the ribosome reaches the stop codon on the messenger RNA molecule and the polypeptide, the messenger RNA, and the transfer RNA molecule are released from the ribosome.
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When a chain of amino acids reaches a stop codon, released from the ribosome.
| 1entails
|
Diffuse reflection occurs when light reflects off a microscopically rough surface.
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When light reflects from a rough surface, it gets diffused.
| 1entails
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I have many photos of similar situations and in reallity, the ceiling will get a decent amount of diffuse light reflected from other surfaces.
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When light reflects from a rough surface, it gets diffused.
| 0neutral
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The light can be reflected and refracted until it reaches a diffuse surface, where it is deposited.
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When light reflects from a rough surface, it gets diffused.
| 0neutral
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The reflection is called diffuse if the reflecting surface is rough.
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When light reflects from a rough surface, it gets diffused.
| 1entails
|
They are formed as light from a light source is reflected or transmitted via one or more specular surfaces before hitting a diffuse surface.
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When light reflects from a rough surface, it gets diffused.
| 0neutral
|
This diffused light is reflected back to the uniform cloud base and then to the surface again.
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When light reflects from a rough surface, it gets diffused.
| 0neutral
|
When light falls on an unpolished (diffuse) surface, light waves are reflected in all directions because of the overall even surface.
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When light reflects from a rough surface, it gets diffused.
| 1entails
|
diffuse reflection occurs on uneven surfaces, when light scatters.
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When light reflects from a rough surface, it gets diffused.
| 1entails
|
C) most of the energy in a trophic level is lost as it passes to the next higher level.
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As it passes to the next level, most of the energy in a trophic level it is lost.
| 1entails
|
most of the energy in a trophic level is lost as it passes to the next higher level.
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As it passes to the next level, most of the energy in a trophic level it is lost.
| 1entails
|
As the star's helium content builds up, the core contracts and releases gravitational energy, which heats up the core and increases the rate of hydrogen consumption.
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When the core of a star begins to run low on hydrogen, it contracts.
| 1entails
|
As the star's hydrogen supply begins to run out and its energy output falters, the star begins to contract.
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When the core of a star begins to run low on hydrogen, it contracts.
| 1entails
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It is during this time that the star begins to run out of hydrogen so the star will lose its brightness and also contract in size.
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When the core of a star begins to run low on hydrogen, it contracts.
| 1entails
|
When the hydrogen supply in the core begins to run out, and the star is no longer generating heat by nuclear fusion, the core becomes unstable and contracts.
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When the core of a star begins to run low on hydrogen, it contracts.
| 1entails
|
When the star exhausts the hydrogen fuel in its core, nuclear reactions can no longer continue and so the core begins to contract due to its own gravity.
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When the core of a star begins to run low on hydrogen, it contracts.
| 1entails
|
A decrease in density of air results in decrease in both aircraft and Engine performance.
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As the altitude decreases, the density of air decreases.
| 0neutral
|
A low-flying plane would suddenly lose altitude as the density of the air under the wing decreased causing an imminent loss of lift.
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As the altitude decreases, the density of air decreases.
| 0neutral
|
Air density decreases with increasing temperature.
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As the altitude decreases, the density of air decreases.
| 0neutral
|
Air temperature decreases as altitude increases in the troposphere.
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As the altitude decreases, the density of air decreases.
| 0neutral
|
As altitude increases, the density decreases with a decreasing rate.
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As the altitude decreases, the density of air decreases.
| 1entails
|
When these engines are operated at high altitudes, the A. low pressure rotor will increase in speed as the compressor load decreases in the lower density air.
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As the altitude decreases, the density of air decreases.
| 0neutral
|
A change in phase that takes place at a constant temperature.
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During phase change, the temperature of a system remains constant.
| 1entails
|
Air temperature remains constant .
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During phase change, the temperature of a system remains constant.
| 0neutral
|
Apart from these material properties phase change materials offer the capability to accumulate heat at a constant temperature.
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During phase change, the temperature of a system remains constant.
| 0neutral
|
Color temperature remains constant even with a change in light output.
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During phase change, the temperature of a system remains constant.
| 0neutral
|
For example, if the change is an increase in temperature at constant volume, with no phase change and no chemical change, then the temperature of the body rises and its pressure increases.
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During phase change, the temperature of a system remains constant.
| 0neutral
|
However, the temperature is not remaining constant .
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During phase change, the temperature of a system remains constant.
| 0neutral
|
If you think that these parasitic elements remain constant and you can therefore compensate for them when calibrating your system, bear in mind that some of these values change with time and with changing physical environmental parameters, such as humidity and temperature.
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During phase change, the temperature of a system remains constant.
| 0neutral
|
Its phase angle remains constant through the photosphere, and significant power is obtained in temperature.
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During phase change, the temperature of a system remains constant.
| 0neutral
|
The coolant phase change keeps the boards at essentially constant temperature without the bulk of chillers.
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During phase change, the temperature of a system remains constant.
| 0neutral
|
The latent heat is the heat absorbed or released (at constant temperature) to change the phase of a substance.
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During phase change, the temperature of a system remains constant.
| 0neutral
|
The phases within the methodology remain a constant .
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During phase change, the temperature of a system remains constant.
| 0neutral
|
The spectral fitting results indicate that the black body temperature remains constant within the errors for the 4 phase intervals.
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During phase change, the temperature of a system remains constant.
| 0neutral
|
The temperature remains constant until the phase change is complete.
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During phase change, the temperature of a system remains constant.
| 1entails
|
This will do a simple analysis with all sources remaining constant (temperature will change, that's OK).
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During phase change, the temperature of a system remains constant.
| 0neutral
|
With further addition of heat, the temperature remains constant while the phase transition takes place.
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During phase change, the temperature of a system remains constant.
| 1entails
|
that arises from changing the composition of the system at constant temperature and pressure.
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During phase change, the temperature of a system remains constant.
| 0neutral
|
2) A reaction in which there is an increase in the number of moles of gas.
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When you add moles of gas to a baloon by blowing it up, the volume increases.
| 0neutral
|
A reaction in which there is an increase in moles of gas.
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When you add moles of gas to a baloon by blowing it up, the volume increases.
| 0neutral
|
An increase in pressure, a decrease in temperature, and a decrease in the number of moles of gas could all cause a decrease in volume of a gas.
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When you add moles of gas to a baloon by blowing it up, the volume increases.
| 0neutral
|
Decreasing the volume of container (increases pressure of gases) favors side that produces the fewest total moles of gas.
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When you add moles of gas to a baloon by blowing it up, the volume increases.
| 0neutral
|
If Boyles' law doesn't make any sense in chemistry, then blow up a balloon and show him how lowering the total volume increases the pressure.
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When you add moles of gas to a baloon by blowing it up, the volume increases.
| 0neutral
|
If the temperature of the gas in the balloon is increased the gas molecules in the balloon begin to move faster.
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When you add moles of gas to a baloon by blowing it up, the volume increases.
| 0neutral
|
If the volume (the space occupied by the gas) is decreased, the number of blows against the wall is increased, thereby increasing the pressure if the temperature remains constant.
|
When you add moles of gas to a baloon by blowing it up, the volume increases.
| 0neutral
|
If you increase the temperature of a gas, what happens to the volume if the moles and pressure is kept constant.
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When you add moles of gas to a baloon by blowing it up, the volume increases.
| 0neutral
|
In general, decreasing the volume (increasing pressure) of a reaction system involving one or more gases results in a shift toward the side with the least moles of gas.
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When you add moles of gas to a baloon by blowing it up, the volume increases.
| 0neutral
|
Increasing the Volume of a gas 3.
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When you add moles of gas to a baloon by blowing it up, the volume increases.
| 0neutral
|
The volume of gas increases because the number of moles is increased.
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When you add moles of gas to a baloon by blowing it up, the volume increases.
| 1entails
|
With less gas, the balloon begins to drop with increasing velocity.
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When you add moles of gas to a baloon by blowing it up, the volume increases.
| 0neutral
|
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