Question

In: Physics

Ideal Gas equation. I understand why PV=MRT but what i dont understand is. Why in this...

Ideal Gas equation.

I understand why PV=MRT but what i dont understand is. Why in this problem P1*V1/M1*R1*T1=P2*V2/M2*R2*T2

https://www.chegg.com/homework-help/Thermodynamics-8th-edition-chapter-7-problem-89P-solution-9780073398174

Solutions

Expert Solution

Solution:

I modified the Answer to your understanding, Clearly

I hope you understood the problem and got your answers, If yes rate me!! or else comment for a better solutions

genius_generous answered 6 months ago
Next > < Previous

Related Solutions

I have 5 chemistry questions here. The Ideal Gas Equation states: PV = nRT where "P"...
I have 5 chemistry questions here. The Ideal Gas Equation states: PV = nRT where "P" equals the pressure of the gas, "V" equals the volume of the container, "n" equals the number of moles of gas in the container, R = the Gas constant (0.082057 L atm K–1 mol–1), and "T" equals the temperature of the gas 1. Calculate the volume (in litres) of a sealed container with 5.67 mol of an ideal gas at a temperature of 374.7...
What is the behavior of the energy fluctuations in an ideal gas with law pV =...
What is the behavior of the energy fluctuations in an ideal gas with law pV = N kBT when N → ∞?
I need A and C ± Changes in Volume The ideal gas law (PV=nRT) describes the...
I need A and C ± Changes in Volume The ideal gas law (PV=nRT) describes the relationship among pressure P, volume V, temperature T, and molar amount n. When some of these variables are constant, the ideal gas law can be rearranged in different ways to take the following forms where k is a constant: Name Expression Constant Boyle's law PV=nRT=k n and T Charles's law VT=nRP=k n and P Avogadro's law Vn=RTP=k T and P Part A A certain...
An ideal gas that goes through a cyclical process on a PV diagram and returns to...
An ideal gas that goes through a cyclical process on a PV diagram and returns to the location on the PV diagram where it began. analyze changes in temperature and thermal energy of the gas change during the cycle. Analyze transfers of energy through heat and work during various stages of the cycle. note: including formulas in the analysis would be helpful.
An ideal gas that goes through a cyclical process on a PV diagram and returns to...
An ideal gas that goes through a cyclical process on a PV diagram and returns to the location on the PV diagram where it began. analyze changes in temperature and thermal energy of the gas change during the cycle. Analyze transfers of energy through heat and work during various stages of the cycle. note: including formulas in the analysis would be helpful.
a) Write down the state equation of an ideal gas. This equation can be utilized to...
a) Write down the state equation of an ideal gas. This equation can be utilized to derive any one of the macroscopic thermodynamic properties, p1, T1, or V1, of an ideal gas in state “1” when the other two properties and the gas’ conditions at some initial state “0” are known. b) What is the ideal gas law? Express the law separately in terms of the amount of substance, the gas’ molar mass, the gas’ molar volume, and the gas’...
I dont understand why we graph polar coordinates in the complext plane, if x = rcos(theta)...
I dont understand why we graph polar coordinates in the complext plane, if x = rcos(theta) and y =rsin(theta) why cant we just convert all polar vectors to x and y? In my circuits class we're comverting polar to complex voltage, but I don't see why we dont just call the vertical component the y component.
Check all the correct statements. The internal energy of an ideal gas (those that obey PV...
Check all the correct statements. The internal energy of an ideal gas (those that obey PV = nRT) depends only the temperature of the system. The internal energy of any gas depends only the temperature of the system. The heat capacity of an ideal gas does not depend on what molecules the gas is made of. At constant temperature, the internal energy of a real gas increases with increasing pressure because molecules are closer together. We assume that the conditions...
Use the van der Waals equation and the ideal gas equation to calculate the volume of...
Use the van der Waals equation and the ideal gas equation to calculate the volume of 1.000 mol of neon at a pressure of 500.0 bar and a temperature of 355.0 K. (Hint: One way to solve the van der Waals equation for V is to use successive approximations. Use the ideal gas law to get a preliminary estimate for V V in ideal gas V in van der waal gas
1. what is the ideal gas law? explain and provide an equation. 2. how do the...
1. what is the ideal gas law? explain and provide an equation. 2. how do the four variables (pressure temperature volume and number of moles ) of a gas relate in the ideal gas law? briefly explain the relationship of gaseous variables as per Boyle's Law Charles law and Avogadro's Law.
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT