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HW8.8 Homework . Answered Important 2.00 moles of He at 1.00 atm are inside a cylindrical...
Consider the expansion of 1.00 mole of (ideal) Ne from 2.00 atm at 75.00 C: the...
Consider the expansion of 1.00 mole of (ideal) Ne from 2.00 atm at 75.00 C: the volume is doubled in the process. Find q, w, Delta H and the final pressure and temperature for a) reversible adiabatic expansion b) reversible isothermal expansion c) reversible constant pressure expansion d) irreversible adiabat against 0.500 atm external pressure
(III) If 3.25 L of gas at 16.0 °C and 1.00 atm is compressed at a...
(III) If 3.25 L of gas at 16.0 °C and 1.00 atm is compressed at a pressure of 125 atm at 20.0 °C, calculate the new volume of the gas. (IV) Calculate its volume (in liters) of 88.4 g of CO2 at STP. (V) H20 and CH4 are gases at 150 °C. Which exhibits more ideal behavior? Why? (VI) Assume that you have a cylinder with a movable piston. What would happen to the gas pressure inside the cylinder if...
Help with number 4 of my pchem homework please :) thanks in advance! Silicon dioxide gas...
Help with number 4 of my pchem homework please :) thanks in
advance!
Silicon dioxide gas is held in a piston chamber that is maintained at a constant temperature of 25.0degree C by contact with an external heat bath. The gas is expanded very, very slowly from 25.0 mL to 75.0 mL. If there is 0.00100 mole of SO_2 in the chamber, calculate the work done by the system. Treat SO_2 van der Waals gas with a = 6.714 atm...
if both questions could be answered please Canvas D Question 4 2 pts A 2.00 L...
if both questions could be answered please
Canvas D Question 4 2 pts A 2.00 L balloon containing He gas at 20.°C is taken outside where it expands to 2.30 L.If the pressure remains at 1.00 atm throughout the process, what must be the outdoor temperature? oC 2 pts D Question 5 If a 1.00 L container at 3.50 atm is compressed to 0.500 L, but at the same time is cooled from 310. K to 150. K what is...
Make a PV diagram showing the following sequential processes: 2.00 moles of an ideal gas at 400K, 1.00 atm. 1. expand is...
Make a PV diagram showing the following sequential processes: 2.00 moles of an ideal gas at 400K, 1.00 atm. 1. expand isothermally from 65.6 L to 131.3 L at 400 K. 2. cooled isobarically from 65.6 L, 200 K 3. heated isochorically from 200 K back to 400 K
1. Calculate the enthalpy change, ΔH, for the process in which 31.6 g of water is...
1. Calculate the enthalpy change, ΔH, for the process in which 31.6 g of water is converted from liquid at 0.4 ∘C to vapor at 25.0 ∘C . For water, ΔHvap = 44.0 kJ/mol at 25.0 ∘C and Cs = 4.18 J/(g⋅∘C) for H2O(l). 2. How many grams of ice at -16.2 ∘C can be completely converted to liquid at 10.2 ∘C if the available heat for this process is 4.27×103 kJ ? For ice, use a specific heat of 2.01...
Make one PV diagram showing the following sequential processes: 2.00 moles of an ideal gas at 400K, 1.00 atm. 1. expand...
Make one PV diagram showing the following sequential processes: 2.00 moles of an ideal gas at 400K, 1.00 atm. 1. expand isothermally from 65.6 L to 131.3 L at 400 K. 2. cooled isobarically from 65.6 L, 200 K 3. heated isochorically from 200 K back to 400 K.
Five moles of carbon dioxide (CO2), initially 3 atm and 300 K, is trapped inside a...
Five moles of carbon dioxide (CO2), initially 3 atm and 300 K, is trapped inside a piston-cylinder assembly. It is then allowed to expand against atmospheric pressure adiabatically. The constant- pressure heat capacity of CO2 is given by the following equation: p = 5.4574 (1.045 × 10-3)(T/K)-(1.157 × 105)(T/K)-2 (a) If we assume that the expansion is infinitely slow and quasi-static, calculate the final temperature and total volume of the carbon dioxide gas when it reaches 1 atm. Also calculate...
R1.20 atm) needed to produce 1.1x1o gofs. 2) ll there is excess SO2 present. S(g) +...
R1.20 atm) needed to produce 1.1x1o gofs. 2) ll there is excess SO2 present. S(g) + SO2(g) → 3 S(s) + 2 H2O(g) 6 L B) 88.0 L E) 132 L C) 45.4 L the following must be overcome during the boiling of so,? Make sure to 2. dipole-dipole forces D) 68.2 L draw a Lewis structure first. 1. dispersion forces A) 1 only 3. hydrogen B) 2 only C) 1 and 2 D) 1 and 3 1, 2, and...
Homework Assignment #5 States of Matter Gases, Liquids and Solids (Due date: October 29, 2019) (I)...
Homework Assignment #5 States of Matter Gases, Liquids and Solids (Due date: October 29, 2019) (I) Consider the following sample of gases: = He N2 (i) (ii) (iii) If the three samples are all at the same temperature, rank them with respect to (a) total pressure; (b) partial pressure of helium; (c) density: (d) average kinetic energy of particles. (II) The temperature of a gas is raised from 10 °C to 20 °C. Will the volume double if mass and...
Consider the expansion of 1.00 mole of (ideal) Ne from 2.00 atm at 75.00 C: the volume is doubled in the process. Find q, w, Delta H and the final pressure and temperature for a) reversible adiabatic expansion b) reversible isothermal expansion c) reversible constant pressure expansion d) irreversible adiabat against 0.500 atm external pressure
(III) If 3.25 L of gas at 16.0 °C and 1.00 atm is compressed at a pressure of 125 atm at 20.0 °C, calculate the new volume of the gas. (IV) Calculate its volume (in liters) of 88.4 g of CO2 at STP. (V) H20 and CH4 are gases at 150 °C. Which exhibits more ideal behavior? Why? (VI) Assume that you have a cylinder with a movable piston. What would happen to the gas pressure inside the cylinder if...
Help with number 4 of my pchem homework please :) thanks in
advance!
Silicon dioxide gas is held in a piston chamber that is maintained at a constant temperature of 25.0degree C by contact with an external heat bath. The gas is expanded very, very slowly from 25.0 mL to 75.0 mL. If there is 0.00100 mole of SO_2 in the chamber, calculate the work done by the system. Treat SO_2 van der Waals gas with a = 6.714 atm...
if both questions could be answered please
Canvas D Question 4 2 pts A 2.00 L balloon containing He gas at 20.°C is taken outside where it expands to 2.30 L.If the pressure remains at 1.00 atm throughout the process, what must be the outdoor temperature? oC 2 pts D Question 5 If a 1.00 L container at 3.50 atm is compressed to 0.500 L, but at the same time is cooled from 310. K to 150. K what is...
Five moles of carbon dioxide (CO2), initially 3 atm and 300 K, is trapped inside a piston-cylinder assembly. It is then allowed to expand against atmospheric pressure adiabatically. The constant- pressure heat capacity of CO2 is given by the following equation: p = 5.4574 (1.045 × 10-3)(T/K)-(1.157 × 105)(T/K)-2 (a) If we assume that the expansion is infinitely slow and quasi-static, calculate the final temperature and total volume of the carbon dioxide gas when it reaches 1 atm. Also calculate...
R1.20 atm) needed to produce 1.1x1o gofs. 2) ll there is excess SO2 present. S(g) + SO2(g) → 3 S(s) + 2 H2O(g) 6 L B) 88.0 L E) 132 L C) 45.4 L the following must be overcome during the boiling of so,? Make sure to 2. dipole-dipole forces D) 68.2 L draw a Lewis structure first. 1. dispersion forces A) 1 only 3. hydrogen B) 2 only C) 1 and 2 D) 1 and 3 1, 2, and...
Homework Assignment #5 States of Matter Gases, Liquids and Solids (Due date: October 29, 2019) (I) Consider the following sample of gases: = He N2 (i) (ii) (iii) If the three samples are all at the same temperature, rank them with respect to (a) total pressure; (b) partial pressure of helium; (c) density: (d) average kinetic energy of particles. (II) The temperature of a gas is raised from 10 °C to 20 °C. Will the volume double if mass and...
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