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The molar heat capacity of an unknown gas at constant volume depends on its temperature as:...
3,1 moles of an ideal gas with a molar heat capacity at constant volume of 5,1...
3,1 moles of an ideal gas with a molar heat capacity at constant volume of 5,1 cal/(mol∙K) and a molar heat capacity at constant pressure of 7,7 cal/(mol∙K) starts at 317,6 K and is heated at constant pressure to 335,9 K, then cooled at constant volume to its original temperature. How much heat (cal) flows into the gas during this two-step process? Answer in two decimal places.
The amount of heat needed to raise the temperature of 1 mole of a substance by...
The amount of heat needed to raise the temperature of 1 mole of a substance by one Celsius degree (or, equivalently, one kelvin) is called the molar heat capacity of the system, denoted by the letter C. If a small amount of heat dQ is put into n moles of a substance, and the resulting change in temperature for the system is dT, then C=1ndQdT. This is the definition of molar heat capacity--the amount of heat Q added per infinitesimal...
The value of the heat capacity for a substance depends on whether it’s measured under constant...
The value of the heat capacity for a substance depends on
whether it’s measured under constant pressure conditions or
constant volume conditions. The constant-pressure molar heat
capacity is given by
= (dq/dT)P
and the constant-volume heat capacity is given by
= (dq/dT)V
Note that we use d instead of
because q is not a state function of temperature, volume, and
pressure; its value depends on how we execute the process.
Here are several questions regarding heat capacity.
a. When we...
7. For CO2 near room temperature: Cy - molar heat capacity at constant volume = 28.5...
7. For CO2 near room temperature: Cy - molar heat capacity at constant volume = 28.5 J/(mole K) Other useful information gas constant R 8.314 J/(mole K) Boltzmann's constant k - 1.38 x 10-23 J/K a) The internal energy of a sample of N molecules of CO2 near room temperature can be written U = a + bNKT where a and b are constants. What is the value of b? (15 points) b) The Equipartition Theorem allots energy VkT to...
What is the heat capacity at constant volume, Cv, of an ideal gas, in ??? ??...
What is the heat capacity at constant volume, Cv, of an ideal gas, in ??? ?? °? if the constant pressure heat capacity, Cp = 0.124 ?? ??? ? and the molar mass of the material is 28 ton/ton-mole?
The molar heat capacity at constant pressure Cp,m of certain ideal gas was found to vary...
The molar heat capacity at constant pressure Cp,m of
certain ideal gas was found to vary according to the
expression
Cp,m = co + ciT, where co = 6.723 J K-1 mol-1 and cı = 0.1222 J K-2 mol-1 are constants peculiar to the gas. Calculate q, w, AU, and AH for a system comprising 3.0 mol of the gas undergoing the following reversible transformations: (a) the temperature of the gas is raised from 25.00°C to 100°C at constant pressure....
1. Acetone has a heat capacity at constant volume of 61.50 J/mol K at 310 K...
1. Acetone has a heat capacity at constant volume of 61.50 J/mol K at 310 K when it is in the gas phase. Consider the system where 1.500 moles of acetone is placed in an adiabatic chamber at 330.04 K. It is allowed to expand such that during the expansion the temperature drops to 288.05 K. Calculate the work done and the change in internal energy for the system. Assume the heat capacity is constant over this temperature range. (ANS:...
Two moles of a gas with a constant‑volume molar specific heat of 20.8 J / (...
Two moles of a gas with a constant‑volume molar specific heat of 20.8 J / ( mol ⋅ K ) is transformed from state A, with temperature T I = 291 K, to state B, with temperature T F = 327 K, as shown in the diagram. What was the change in the entropy ΔSΔS of the gas?
The figure below shows the heat capacity at constant volume of one mole of Hydrogen(H2)gas....
The figure below shows the heat capacity at constant volume of one mole of Hydrogen(H2)gas. Explain briefly why Cv increases with temperature? Cv tlh fi LA w.
Which of these statements are true? -The internal energy of any gas depends only the temperature...
Which of these statements are true? -The internal energy of any gas depends only the temperature of the system. - The internal energy of a gas always increases with temperature -The heat capacity of a monoatomic ideal gas is always smaller than the heat capacity of a polyatomic ideal gas. - q = 0 for any process that does not result in a change in temperature.
The value of the heat capacity for a substance depends on
whether it’s measured under constant pressure conditions or
constant volume conditions. The constant-pressure molar heat
capacity is given by
= (dq/dT)P
and the constant-volume heat capacity is given by
= (dq/dT)V
Note that we use d instead of
because q is not a state function of temperature, volume, and
pressure; its value depends on how we execute the process.
Here are several questions regarding heat capacity.
a. When we...
7. For CO2 near room temperature: Cy - molar heat capacity at constant volume = 28.5 J/(mole K) Other useful information gas constant R 8.314 J/(mole K) Boltzmann's constant k - 1.38 x 10-23 J/K a) The internal energy of a sample of N molecules of CO2 near room temperature can be written U = a + bNKT where a and b are constants. What is the value of b? (15 points) b) The Equipartition Theorem allots energy VkT to...
The molar heat capacity at constant pressure Cp,m of
certain ideal gas was found to vary according to the
expression
Cp,m = co + ciT, where co = 6.723 J K-1 mol-1 and cı = 0.1222 J K-2 mol-1 are constants peculiar to the gas. Calculate q, w, AU, and AH for a system comprising 3.0 mol of the gas undergoing the following reversible transformations: (a) the temperature of the gas is raised from 25.00°C to 100°C at constant pressure....
1. Acetone has a heat capacity at constant volume of 61.50 J/mol K at 310 K when it is in the gas phase. Consider the system where 1.500 moles of acetone is placed in an adiabatic chamber at 330.04 K. It is allowed to expand such that during the expansion the temperature drops to 288.05 K. Calculate the work done and the change in internal energy for the system. Assume the heat capacity is constant over this temperature range. (ANS:...
The figure below shows the heat capacity at constant volume of one mole of Hydrogen(H2)gas. Explain briefly why Cv increases with temperature? Cv tlh fi LA w.
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