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The specific heat of an ideal triatomic gas at constant volume ((C_v)) is generally around (3R/2 + R = 5R/2), where (R) is the universal gas constant. At constant pressure ((C_p)), it is (C_v + R), resulting in (7R/2). The specific heat values can vary slightly depending on the molecular structure and degrees of freedom of the gas, but these are the standard values for a diatomic ideal gas.
What else can I help you with?
Can you tell one triatomic gas?
Ozone is a triatomic gas
Did anybody has the material on triatomic gas molecules?
There are many triatomic gas molecules, for example: Carbon dioxide Ozone Water Hydrogen cyanide The person asking the question will have to be more specific about what "materials" on triatomic gases there are interested in.
What is the specific heat of 450 Deg C hot air?
The specific heat of air at 450oC as an ideal gas is: 1.081 kJ/(Kg∙K)
Is ozone a triatomic gas?
Yes, ozone is a triatomic gas. It contains three atoms of oxygen linked together in an ionic bond.
The degree of freedom of a triatomic gas is?
6
Calculate the final temperature of the gas?
To calculate the final temperature of a gas, you need to apply the ideal gas law (PV = nRT) or use specific heat formulas depending on the context of the problem. If you have initial conditions and changes in volume, pressure, or the amount of gas, you can rearrange the ideal gas law to solve for the final temperature (T). Alternatively, if heat is added or removed, you might use the equation Q = mcΔT, where Q is heat added, m is mass, c is specific heat capacity, and ΔT is the change in temperature. Please provide specific values or conditions for a precise calculation.
What are facts about ozone layer?
Ozone is a triatomic gas. It is an allotrope of oxygen.
What is ozone and where is itpresent in the atmosphere?
Ozone is a triatomic gas. It is present at stratosphere.
What is triatomic gas?
A triatomic gas is a gas molecule composed of three atoms. Some common examples include ozone (O3) and carbon dioxide (CO2). These molecules exhibit unique properties due to the arrangement of the atoms within the molecule.
How does the integral of Cp dT/T compare to R ln(P2/P1) in an adiabatic process for an ideal gas Can you explain the relationship between these two terms?
In an adiabatic process for an ideal gas, the integral of Cp dT/T is equal to R ln(P2/P1), where Cp is the specific heat at constant pressure, R is the gas constant, P1 is the initial pressure, and P2 is the final pressure. This relationship shows that the change in temperature with respect to the initial and final pressures is related to the specific heat capacity and gas constant.
How do you derive the equation cp-cv equals R?
The equation Cp - Cv = R is derived from the first law of thermodynamics applied to an ideal gas process. It relates the specific heat capacities at constant pressure (Cp) and constant volume (Cv) of an ideal gas to the universal gas constant (R). This relationship is based on the assumption that the internal energy of an ideal gas depends only on its temperature.
Name the triatomic gas?
Ozonehyzone( h3) unstable molecule trisulfur(s3) thiozone, in sulfur vapors and solid at cryogenic temperatures.
