Suppose 890 J of heat flows into a diatomic ideal gas that is held at constant...
Suppose 890 J of heat flows into a diatomic ideal gas that is held at constant volume.
Part A.
How many joules of this energy goes into the translational kinetic energy of the gas?
Express your answer in joules as an integer.
Part B.
How many joules of the heat energy goes into the rotational kinetic energy of the gas?
Express your answer in joules as an integer..
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Suppose 890 J of heat flows into a diatomic ideal gas that is
held at constant...
Chapter 19, Problem 053 Suppose 2.58 mol of an ideal diatomic gas, with molecular rotation but...
Chapter 19, Problem 053 Suppose 2.58 mol of an ideal diatomic gas, with molecular rotation but not oscillation, experienced a temperature increase of 61.4 K under constant-pressure conditions. What are (a) the energy transferred as heat Q, (b) the change ΔEit in internal energy of the gas (c) the work done by the gas and (d) the change ΔK in the total translational kinetic energy of the gas? (a) Number (b) Number (c) Number (d) Number Units Units Units (...
With the pressure held constant at 230 kPa, 44 mol of a monatomic ideal gas expands from an initial volume of 0.80 m3 to a final volume of 1.9 m3. Review PartA With the pressure held constant at 230 k...
With the pressure held constant at 230 kPa, 44 mol of a
monatomic ideal gas expands from an initial volume of 0.80 m3 to a
final volume of 1.9 m3.
Review PartA With the pressure held constant at 230 kPa, 44 mol of a monatomic ideal gas expands from an initial volume of 0.80 m3 to a final volume of 1.9 m3 How much work was done by the gas during the expansion? Express your answer using two significant figures....
Consider 2.32 moles of an ideal diatomic gas at 25.0°C. (a) What is the total heat...
Consider 2.32 moles of an ideal diatomic gas at 25.0°C. (a) What is the total heat capacity of the gas if the molecules do not vibrate? at constant volume J/K at constant pressure J/K (b) What is the total heat capacity of the gas if the molecules do not translate or rotate, but do vibrate about their molecular axes? at constant volume J/K at constant pressure
The temperature of 5.58 mol of an ideal diatomic gas is increased by 31.1 ˚C without...
The temperature of 5.58 mol of an ideal diatomic gas is increased by 31.1 ˚C without the pressure of the gas changing. The molecules in the gas rotate but do not oscillate. (a) How much energy is transferred to the gas as heat? (b) What is the change in the internal energy of the gas? (c) How much work is done by the gas? (d) By how much does the rotational kinetic energy of the gas increase?
Under constant-volume conditions, 3100 J of heat is added to 1.9 moles of an ideal gas....
Under constant-volume conditions, 3100 J of heat is added to 1.9 moles of an ideal gas. As a result, the temperature of the gas increases by 78.5 K. How much heat would be required to cause the same temperature change under constant-pressure conditions? Do not assume anything about whether the gas is monatomic, diatomic, etc.
Under constant-volume conditions, 4100 J of heat is added to 1.5 moles of an ideal gas....
Under constant-volume conditions, 4100 J of heat is added to 1.5 moles of an ideal gas. As a result, the temperature of the gas increases by 132 K. How much heat would be required to cause the same temperature change under constant-pressure conditions? Do not assume anything about whether the gas is monatomic, diatomic, etc.
Part A:See diagram 4. 51.4 moles of a diatomic ideal gas undergo three steps: A to...
Part A:See diagram 4. 51.4 moles of a diatomic ideal gas undergo three steps: A to B is an isobaric (constant pressure P1 = 5.64x106 Pascal) expansion from volume V1 = 0.0854 m3 to V2 = 0.979 m3. B to C is isochoric (constant volume) C to A is isothermal (constant T). Find PC, the pressure at point C, in Pascals. Express in scientific notation. Part B:See diagram 4. 21.6 moles of a diatomic ideal gas undergo three steps: A...
In this problem you are to consider an adiabaticexpansion of an ideal diatomic gas, which means...
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1. Ideal gas with internal degrees of freedom. Consider a free gas of diatomic molecules at...
1. Ideal gas with internal degrees of freedom. Consider a free gas of diatomic molecules at temperature 7. Diatomic molecules have internal rotational excitations. The rotational energy levels of a single molecule are given by J(J+1) 2/2 J = 0,1,23 where J is the angular momentum and I is the moment of inertia. The degeneracy of the level J is 2J +1. Neglect any interaction between the molecules in the gas. The temperature is high enough so that the statistic...
One mole of an ideal diatomic gas goes from a to c along the diagonal path...
One mole of an ideal diatomic gas goes from a to c along the diagonal path in the figure below. The scale of the vertical axis is set by Pab = 4.8 kPa and pc = 2.2 kPa, and the scale of the horizontal axis is set by Vbc-4.4 m3 and Va 2.2 m 3 bc Volume (m) (a) During the transition, what is the change in internal energy of the gas? (b) How much energy is added to the...
Chapter 19, Problem 053 Suppose 2.58 mol of an ideal diatomic gas, with molecular rotation but not oscillation, experienced a temperature increase of 61.4 K under constant-pressure conditions. What are (a) the energy transferred as heat Q, (b) the change ΔEit in internal energy of the gas (c) the work done by the gas and (d) the change ΔK in the total translational kinetic energy of the gas? (a) Number (b) Number (c) Number (d) Number Units Units Units (...
With the pressure held constant at 230 kPa, 44 mol of a
monatomic ideal gas expands from an initial volume of 0.80 m3 to a
final volume of 1.9 m3.
Review PartA With the pressure held constant at 230 kPa, 44 mol of a monatomic ideal gas expands from an initial volume of 0.80 m3 to a final volume of 1.9 m3 How much work was done by the gas during the expansion? Express your answer using two significant figures....
1. Ideal gas with internal degrees of freedom. Consider a free gas of diatomic molecules at temperature 7. Diatomic molecules have internal rotational excitations. The rotational energy levels of a single molecule are given by J(J+1) 2/2 J = 0,1,23 where J is the angular momentum and I is the moment of inertia. The degeneracy of the level J is 2J +1. Neglect any interaction between the molecules in the gas. The temperature is high enough so that the statistic...
One mole of an ideal diatomic gas goes from a to c along the diagonal path in the figure below. The scale of the vertical axis is set by Pab = 4.8 kPa and pc = 2.2 kPa, and the scale of the horizontal axis is set by Vbc-4.4 m3 and Va 2.2 m 3 bc Volume (m) (a) During the transition, what is the change in internal energy of the gas? (b) How much energy is added to the...
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