How to calculate the minimum change in entropy required to stabilise bcc iron (in units of...

Two different gases A and B are mixed. Calculate change of entropy. a) Assume pressure and...

Two different gases A and B are mixed. Calculate change of entropy. a) Assume pressure and temperature of A and B are the same. b) Now assume pressure and temperature of A and B are different. The system is thermally isolated. Calculate entropy and final temperature, Tf.

How does the entropy of the system change when the temperature of the system increases? How...

How does the entropy of the system change when the temperature of the system increases? How does the entropy of the system change when the volume of a gas increases? How does the entropy of the system change when equal volumes of ethanol and water are mixed to form a solution? Do these increase decrease or stay the same?

Here we calculate the partition function, molar translational internal energy, and molar translational entropy of a...

Here we calculate the partition function, molar translational internal energy, and molar translational entropy of a monatomic gas. The single particle translational partition function is qtrans=VΛ3) where Λ is the thermal wavelength and teh entropy is given by the Sackur-Tetrode equation S=N*kB*ln((qtrans*e^5/2)/N). A. Calculate the single particle translational partition function q for neon gas at T=298K and V=22.4L. Assume neon behaves ideally. B. Based on your answer in Part A, calculate the molar translational internal energy of neon at at...

Calculate the entropy change when argon at 298 K and 1 bar in a container of...

Calculate the entropy change when argon at 298 K and 1 bar in a container of volume 0.5 l is heated to a temperature of 373 K and final volume of 1.0 l. Try to derive the complete expression algebraically before putting in numbers.

Calculate the entropy change for the process of taking 1.00 kg of water from a temperature...

Calculate the entropy change for the process of taking 1.00 kg of water from a temperature of -26 C to +42 C keeping in mind that ice melts at 0 C. Assume a constant pressure of 1 bar and a temperature independent heat capacity within a given phase (Cpm = 37 J/Kmol for the solid and Cpm = 75 J/Kmol for the liquid state).

If the temperature of the surroundings is -244.32 °C, calculate the entropy change (in J/K) for...

If the temperature of the surroundings is -244.32 °C, calculate the entropy change (in J/K) for the system (ΔSsys), surroundings (ΔSsur) and universe (ΔSuniverse) when 40.4 g of liquid oxygen (O2) freezes. Report your answers to two decimal places. Tfus(°C) -218.79 Tvap(°C) -182.96 ΔH°fus (kJ/mol) 0.44 ΔH°vap (kJ/mol) 6.82

If the temperature of the surroundings is 38.36 °C, calculate the entropy change (in J/K) for...

If the temperature of the surroundings is 38.36 °C, calculate the entropy change (in J/K) for the system (ΔSsys), surroundings (ΔSsur) and universe (ΔSuniverse) when 48.1 g of gaseous carbon tetrachloride (CCl4) condenses. Report your answers to two decimal places. Tfus(°C) -23.00 Tvap(°C) 76.80 ΔH°fus (kJ/mol) 3.28 ΔH°vap (kJ/mol) 29.82

(a) Calculate the change in entropy of an ideal gas [for which p = nRT/V] when...

(a) Calculate the change in entropy of an ideal gas [for which p = nRT/V] when its volume is doubled at fixed temperature and number of molecules. (b) Repeat the calculation for a van der Waals gas [ for which p = nRT/(V–nb) – a (n/V)^2 ] (c) Give a physical explanation for the difference between the two.

If the temperature of the surroundings is 5.45 °C, calculate the entropy change (in J/K) for...

If the temperature of the surroundings is 5.45 °C, calculate the entropy change (in J/K) for the system (ΔSsys), surroundings (ΔSsur) and universe (ΔSuniverse) when 33.6 g of gaseous diethyl ether (C4H10O) condenses. Report your answers to two decimal places. Tfus(°C) -116.30 Tvap(°C) 34.50 ΔH°fus (kJ/mol) 7.27 ΔH°vap (kJ/mol) 26.52 i need these : 1- ΔSsys = 2- ΔSsur = 3 -ΔSuniverse =

Calculate the change in entropy for one mole of ideal gas which expands from an initial...

Calculate the change in entropy for one mole of ideal gas which expands from an initial volume of 2 L and initial temperature of 500 K to a final volume of 6 L under the following conditions. P(initial) refers to the pressure when T(initial)= 500K, V(initial)= 2 L. a) Irreversible expansion against a constant pressure of Pinitial/2 b) Irreversible expansion against a vacuum...a 'free expansion'. c) Adiabatic irreversible expansion against a constant pressure of Pfinal d) Adiabatic reversible expansion