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Example Questions
Example Question #11 : Thermochemistry And Thermodynamics
Argon gas is confined in a container at . What is the work done if the gas expands against an external pressure of to a volume of ?
The work () done by a system is:
with and
Plugging the values given into the work equation gives:
Example Question #12 : Thermochemistry And Thermodynamics
Argon gas is confined in a at . What is the work done if the gas expands against an external pressure of to a volume of ?
The work () done by a system is:
with and
Plugging the values given into the work equation gives:
Example Question #1 : Isothermic, Isobaric, And Adiabatic Processes
Which of the following is not true for an isothermal process?
For an isothermal process there is no change in temperature, therefore, the temperature is a constant. An ideal gas has an internal energy, , that is proportional to temperature, so if the temperature is does not change the internal energy does not change. Hence the name isothermal (iso means the same and thermal means temperature).
If you rearrange the equation, you will find that:
A simple explanation of this is that all the heat applied to the system is used to do the work. A piston is a good example for this phenomenon. This happens when every bit of energy applied or removed from a piston as work is done so slowly that all the heat has enough time to conduct into or out of the system and maintain a constant temperature.
Example Question #1 : Isothermic, Isobaric, And Adiabatic Processes
A sample of an ideal gas is initially at a volume of . The gas expands to a volume of when of heat is applied to the system against a constant external pressure of . Calculate the change in internal energy for this gas.
The expression for the relationship between heat () and work () is change in internal energy ():
The work () done by a system is:
with and
Plugging work () into the internal energy equation gives:
Plugging the values given into the internal energy equation gives:
Example Question #1 : Isothermic, Isobaric, And Adiabatic Processes
At , a sample of argon gas expands reversibly from a confined space of to . Calculate the work done.
The process as described by the question is an isothermal process. An isothermal process has a constant temperature, therefore, there is no change in temperature. For an isothermal reversible process, the work done by the system is:
Plugging the values given into the equation gives:
Example Question #2 : Isothermic, Isobaric, And Adiabatic Processes
A sample of an ideal gas is initially at a volume of . The gas expands to a volume of when of heat is applied to the system against a constant external pressure of . Calculate the change in internal energy for this gas.
The expression for the relationship between heat () and work () is change in internal energy ():
The work () done by a system is:
with and
Plugging work () into the internal energy equation gives:
Plugging the values given into the internal energy equation gives:
Example Question #2 : Isothermic, Isobaric, And Adiabatic Processes
At , a sample of argon gas (atomic mass=) expands reversibly from a confined space of to . Calculate the work done.
The process as described by the question is an isothermal process. An isothermal process has a constant temperature, therefore, there no change in temperature. For an isothermal reversible process, the work done by the system is:
Convert the grams to moles of argon:
Plugging the values given into the equation gives:
Example Question #11 : Thermochemistry And Thermodynamics
Which of the following processes are considered an isothermic reaction?
I. Condensation
II. Evaporation
III. Sublimation
I, II and III
I only
I and II
II only
I, II and III
Isothermic reactions are characterized as reactions that occur in constant temperature. Recall that phase changes (such as condensation, evaporation, etc.) occur at a constant temperature (melting point, boiling point,e etc.). Consider the following example. Water boils at ; this means that when liquid water is placed at its boiling point, it will convert rapidly to gas (water vapor). The reaction will happen at a constant temperature (at ) and, therefore, will be an isothermic process. This is true for all phase change reactions. Condensation is conversion of solid to liquid, evaporation is conversion of liquid to gas, and sublimation is conversion of solid to gas (or gas to solid).
Example Question #1 : Isothermic, Isobaric, And Adiabatic Processes
Melting of a solid to a liquid is an example of what type of reaction?
Isothermic
Isovolemic
Isobaric
More than one of these are true
More than one of these are true
Isothermic reactions occur in constant temperature, isovolemic reactions occur in constant volume and isobaric reactions occur in constant pressure. During phase changes, like melting, the temperature stays constant (at the melting point). The pressure will also likely remain constant because most reactions are carried out at atmospheric pressure (); therefore, melting an ice cube is an isothermic and an isobaric reaction.
The volume, on the other hand, changes. Recall that gases have the highest volume, solids have the smallest volume and liquids have intermediate volume. This means that melting converts a low volume solid to higher volume liquid (therefore, this is not an isovolemic reaction). As a side note, recall that water is the only exception to this rule. Ice cube (solid water) has higher volume than liquid water.
Example Question #1 : Other Thermodynamic Principles
If a copper wire gains of heat, what is the change in temperature of the wire?
The thermal energy an object contains is given by:
Where is the specific heat, is the change in temperature, is the mass, and is the amount of energy. We are given everything but the , so we rearrange the equation to
Plug in known values and solve:
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