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when a tyre is pumped up rapidly, its te...

when a tyre is pumped up rapidly, its temperature rises, would you expect the same effect if air were an ideal gas?

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To solve the question of whether the temperature would rise when a tire is pumped up rapidly if air were treated as an ideal gas, we can break down the explanation into several steps: ### Step-by-Step Solution: 1. **Understanding the Process of Pumping Air**: - When a tire is pumped, air is forced into the tire, which increases the number of air particles inside the tire. 2. **Increase in Particle Collisions**: ...
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When a gas is suddenly compressed, its temperature rises. Why?

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Some heat energy is given to 120 g of water and its temperature rises by 10 K. When the same amount of heat energy is given to 60 g of oil, its temperature rises by 40 K. The specific heat capacity of water is 4200 J kg- K^(-1) . Calculate : (i) the amount of heat energy in joule given to water, and (ii) the specific heat capacity of oil.

Select the correct statement for a real gas (i)The behaviour of the gas become more ideal when pressure is very low. (ii)Pressure of gas for ideal behaviour depends upon nature of the gas and its temperture. (iii)The temperature at which a real gas obeys ideal gas law over an appreciable range of pressure in low pressure rang is called Boyle's temperature.

A sample of air weighing 1.18 g occupies 1.0 xx 10^(3) cm^(3) when kept at 300 K and 1.0 xx 10^(5) pa. When 2.0 cal of heat is added to it constant volume, its temperature increases by 1^@C . Calculate the amount if heat needed to increases the temperature of air by 1^@C at constant pressure if the mechanical equivalent of heat si 4.2 xx 10^(-1) . Assume that air behaves as an ideal gas.

A gas is said to behave like an ideal gas when the relation (pV)/(T) = constant. When do you expect a real gas to behave like an ideal gas ?

One mole of an ideal monoatomic gas requires 207 J heat to raise the temperature by 10 K when heated at constant pressure. If the same gas is heated at constant volume to raise the temperature by the same 10 K, the heat required is [Given the gas constant R = 8.3 J/ mol. K]

The pressure exerted by 12 g of an ideal gas at temperature t^(@)C in a vessel of volume V litre is 1 atm . When the temperature is increased by 10^(@)C at the same volume, the pressure increases by 10% . Calculate the temperature t and volume V . (Molecular weight of the gas is 120 ).

The pressure exerted by 12 g of an ideal gas at temperature t^(@)C in a vessel of volume V litre is 1 atm . When the temperature is increased by 10^(@)C at the same volume, the pressure increases by 10% . Calculate the temperature t and volume V . (Molecular weight of the gas is 120 ).

CENGAGE CHEMISTRY ENGLISH-STATES OF MATTER-Ex 5.4
  1. At what temperature will 128 g of SO(2) confined in a vessel of 5 dm^(...

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  2. Given that the co-volume of O(2) gas is 0.318 L mol^(-1). Calculate th...

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  3. when a tyre is pumped up rapidly, its temperature rises, would you exp...

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  4. Can we use Boyle's law to calculate the volume of a real gas from its ...

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  5. Which postulate of kinetic theory can be used to justfy Dalton's law o...

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  6. A porpous cup is filled with H(2) gas at the atmospheric pressure and ...

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  7. What is the meaning of pressure of the gas?

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  8. What is the difference between barometer and manometer?

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  9. Based upon Boyle's law, draw the plot of PV vs P.

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  10. If a plot a V vs .^(@)C at constant pressure is drawn, at what tempera...

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  11. Why do we add 273 to the temperature while dealing with problems on ga...

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  12. Given the relationship between the molar volume of a gas and its molar...

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  13. What would have happened to the pressure of a gas if the collisions of...

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  14. Which postulate of kinetic theory are invalid at low temperature of hi...

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  15. What is the relation between three types of molecular speeds at a give...

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  16. In the plot of Z (compressibility factor) vs P,Z attains a value of un...

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  17. Draw the plot log P vs log V for Boyle's law.

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  18. Draw the plot log V vs log T.

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  19. Is it possible to cool the gas to 0 K?

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  20. Why excluded volume v is four times the actual volume of molecules?

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