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Explain the following: Gases can be c...

Explain the following:
Gases can be compressed by applying pressure on them.

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Out of the three states of matter, only the gases have most of the physical properties common. They neither have definite shapes nor volumes. Upon mixing they form homogeneous mixture irrespective of their nature and can also be compressed on applying pressure. In addition to these, the gases obey different gas laws such as boyle's Law, Charles's Law, Dalton's Law of partial pressures, Graham's Law of diffusion etc. Based upon these laws, ideal gas equation PV = nRT has been derived. When the product of pressure and volume is plotted against pressure for a given amount of a gas, the obtained is

Out of the three states of matter, only the gases have most of the physical properties common. They neither have definite shapes nor volumes. Upon mixing they form homogeneous mixture irrespective of their nature and can also be compressed on applying pressure. In addition to these, the gases obey different gas laws such as boyle's Law, Charles's Law, Dalton's Law of partial pressures, Graham's Law of diffusion etc. Based upon these laws, ideal gas equation PV = nRT has been derived. 4-4 g of a gas at STP occupies a volume of 2.224 L. The gas can be :

Out of the three states of matter, only the gases have most of the physical properties common. They neither have definite shapes nor volumes. Upon mixing they form homogeneous mixture irrespective of their nature and can also be compressed on applying pressure. In addition to these, the gases obey different gas laws such as Boyle's Law, Charles's Law, Dalton's Law of partial pressures, Graham's Law of diffusion etc. Based upon these laws, ideal gas equation PV = nRT has been derived. For an ideal gas, number of moles per litre in terms of its pressure P, gas constant R and temperature T is :

Out of the three states of matter, only the gases have most of the physical properties common. They neither have definite shapes nor volumes. Upon mixing they form homogeneous mixture irrespective of their nature and can also be compressed on applying pressure. In addition to these, the gases obey different gas laws such as Boyle's Law, Charles's Law, Dalton's Law of partial pressures, Graham's Law of diffusion etc. Based upon these laws, ideal gas equation PV = nRT has been derived. Same mass of CH_(4) and H_(2) at taken in a container. The partial pressure caused by H_(2) is

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ICSE-STATES OF MATTER : GASES AND LIQUIDS-REVIEW EXERCISES
  1. Give a brief account of the important characteristics of gases.

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  2. Explain the following: Gases have no definite shape nor a definite ...

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  3. Explain the following: Gases can be compressed by applying pressure...

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  4. Explain the following: Gases can mix up freely with one another.

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  5. Define the term pressure.

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  6. What is the SI unit of pressure ? Define it.

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  7. What do you understand by S.T.P. ?

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  8. An LPG cylinder can withstand a pressure of 14.9 atmosphere. The press...

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  9. A gas occupies 500 mL at 25^@C and 745 mm pressure. What would be its ...

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  10. A gas occupies 3.00 L at 32^@C and 1 atm pressure. What volume will it...

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  11. 7.00 g of a gas occupies a volume of 4.1 L at 300 K and 1 atm pressure...

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  12. A balloon blown up has a volume of 500 mL at 5^@C. The balloon is dist...

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  13. A balloon blown up has a volume of 500 mL at 5^@C. The balloon is dist...

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  14. At a constant temperature, 250 mL of argon at 760 mm pressure and 600 ...

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  15. H2 gas produced by the reaction Zn + 2HCl to ZnCl2 + H2 is coll...

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  16. When 2g of a gas A is introduced into an evacuated flask kept at 25^@C...

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  17. Calculate the density of SO2 " at " 27^@C and 1.5 atm pressure.

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  18. A gas at 0^@C and 1 atmospheric pressure occupies 2.5 litres. What cha...

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  19. A balloon of 21 cm diameter is to be filled with hydrogen gas at S.T.P...

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  20. What weight of AgCl would be precipitated if 10 mL of HCl gas measured...

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