A 2L flask contains 1.6 g of methane and...

A `2L` flask contains `1.6 g` of methane and `0.5 g` of hydrogen at `27^(@)C`. Calculate the partial pressure of each gas in the mixture and hence calculate the total pressure.

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To solve the problem, we need to calculate the partial pressures of methane (CH₄) and hydrogen (H₂) in a 2L flask, and then find the total pressure. We will use the Ideal Gas Law, which is given by the equation: \[ PV = nRT \] Where: - \( P \) = pressure - \( V \) = volume - \( n \) = number of moles ...

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CENGAGE CHEMISTRY ENGLISH-STATES OF MATTER-Exercises (Ture False)

A 2L flask contains 1.6 g of methane and 0.5 g of hydrogen at 27^(@)C....
03:33
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In the van der Waals equation (P + (n^(2)a)/(V^(2)))(V - nb) = nRT ...
02:05
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Kinetic energy of a molecule is zero at 0^(@)C
01:48
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Gas in a closed container will exert much higher pressure due to gravi...
02:29
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The graph between PV vs P at constant temperature is linear parallel t...
01:29
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Real gases show deviation from ideal behavior at low temperature and h...
02:52
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All the molecules in a given sample of gas move with same speed.
03:06
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Small value of a means, gas can be easily liqueifed.
01:36
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Small value of a means, gas can be easily liqueifed.
01:36
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Rate of diffusion is directly proportional to the square root of molec...
01:12
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For ideal gases, Z = 1 at all temperature and pressure.
01:01
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According to charles's law,
01:06
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The pressure of moist gas is higher than pressure of dry gas.
01:44
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Gases do not occupy volume and do not have force of attraction.
01:32
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The van der Waal equation of gas is (P + (n^(2)a)/(V^(2))) (V - nb)...
07:40
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Surface tension and surface energy have different dimensions.
02:15
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The plot of PV vs P at particular temperature is called isovbar.
01:33
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Give reasons for the following in one or two sentences. (a) A bottle...
03:07
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Can a gas with a = 0 be liquefied?
01:00
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The van der waals constants have same values for all the gases.
05:17
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All the molecules in a given sample of gas move with same speed.
03:06
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