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Explanation: Critical temperature refers to the temperature above which a substance's vapor cannot be liquefied, regardless of the pressure applied
Source: Any Text Book from HSC Level/ Relevant sites
৪৯তম বিসিএস ⎯ রসায়ন [৫৩১] · তারিখ অনির্ধারিত · ৩০ প্রশ্ন
Explanation: Critical temperature refers to the temperature above which a substance's vapor cannot be liquefied, regardless of the pressure applied
Source: Any Text Book from HSC Level/ Relevant sites
Explanation: The cooling is mainly due to the Joule–Thomson effect, where a gas experiences a temperature drop upon expansion at constant enthalpy when below its inversion temperature.
Source: Any Text Book from HSC Level/ Relevant sites
Explanation: In the Joule-Thomson effect, the inversion temperature is the specific temperature at which a gas transitioning through a porous plug experiences no change in temperature during expansion, meaning it neither heats up nor cools down.
Source: Any Text Book from HSC Level/ Relevant sites
Explanation: In the Claude process, part of the gas is expanded in an expansion engine, doing external work and producing additional cooling through adiabatic expansion.
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Explanation: Efficiency improves when the gas has a higher inversion temperature and is precooled below it before expansion, maximizing the Joule–Thomson cooling effect.
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Explanation: The First Law states that energy can neither be created nor destroyed; it can only change forms, conserving total energy in the universe.
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Explanation: For exothermic reactions, ΔH is negative because heat is released to the surroundings.
Source: Any Text Book from HSC Level/ Relevant sites
Explanation: At constant pressure, the heat change equals the change in enthalpy (ΔH) of the system.
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Explanation: The Third Law states that the entropy of a perfect crystal approaches zero as the temperature approaches absolute zero, defining the concept of absolute zero.
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Explanation: Absorbs heat from the surroundings, resulting in a positive enthalpy change (ΔH > 0).
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Explanation: By the First Law, ΔU = Q − W = 150 − 40 = 110 kJ.
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Explanation: Expansion of a gas into a vacuum is irreversible because it occurs without any opposing force and cannot spontaneously reverse.
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Explanation: It is defined as zero because it serves as the reference state for measuring enthalpy changes.
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Explanation: Always positive, as spontaneous processes increase the total entropy of the universe.
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Explanation: Hess's Law: The enthalpy change of a reaction is independent of the path taken, depending only on the initial and final states.
Source: Any Text Book from HSC Level/ Relevant sites
Explanation: Boyle’s law states that at constant temperature, the volume of a gas is inversely proportional to its pressure (V ∝ 1/P).
Source: Any Text Book from HSC Level/ Relevant sites
Explanation: The pascal (Pa), equivalent to one newton per square meter.
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Explanation:
Charles' Law: V∝ T(The absolute temperature (in Kelvin)) when pressure and moles of gas are constant.
Source: Any Text Book from HSC Level/ Relevant sites
Explanation: The ideal gas law, PV = nRT, unifies these three relationships into one equation.
Source: Any Text Book from HSC Level/ Relevant sites
Explanation: The collisions of gas molecules with the walls of the container, transferring momentum.
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Explanation: The absolute temperature in Kelvin, regardless of the type of gas.
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Explanation: Half of the original volume, according to Boyle’s law (P₁V₁ = P₂V₂)
Source: Any Text Book from HSC Level/ Relevant sites
Source: Any Text Book from HSC Level/ Relevant sites
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Convert entropy to kJ:
Apply Gibbs equation:
ΔG=ΔH−TΔSExplanation: The theory assumes negligible intermolecular forces; thus, "strong attractive forces between molecules" is not valid.
Source: Any Text Book from HSC Level/ Relevant sites
Explanation: rate ∝ 1/√M.
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Explanation: Both have the same average kinetic energy per molecule, but different root-mean-square speeds because molecular masses differ.
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Explanation: ΔH < 0 and ΔS < 0, because a negative entropy change can only be spontaneous if the temperature is low enough for the enthalpy term to dominate
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