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6. -2 points Tipler6 18 P078 Not During the process of quasi-statically compressing an ideal diatomic...
A 0.450-mol sample of an ideal diatomic gas at 372 kPa and 312 K expands quasi-statically
A 0.450-mol sample of an ideal diatomic gas at 372 kPa and 312 K expands quasi-statically until the pressure decreases to 147 kPa. Find the final temperature and volume of the gas, the work done by the gas, and the heat absorbed by the gas if the expansion is the following. (a) Isothermal final temperature _______ volume of the gas _______ work done by the gas _______ heat absorbed _______ (b) adiabatic final temperature _______ volume of the gas _______ work done by the gas _______ heat absorbed _______
can you help me with this plesae? O 3.5/7 points Previous Answers Tipler6 19 PO34 My...
can you help me with this plesae?
O 3.5/7 points Previous Answers Tipler6 19 PO34 My Notes One mole of an ideal monatomic gas at an initial volume Vi30 L follows the cycle shown in the figure. All the processes are quasi-static. PkPa 200 Isotherm 100 2V, v.L (a) Find the temperature of each state of the cycle. X K (state 1) X K (state 2) X K (state 3) q (b) Find the heat flow for each part of...
We have a diatomic ideal gas with a y of 5/2. It starts with an initial...
We have a diatomic ideal gas with a y of 5/2. It starts with an initial pressure of 1kPa, an initial temperature of 100 K, and an initial volume of 10 m^3 a) The gas undergoes an adiabatic compression, halving its volume. What is its new pressure? b) What was the work done? c) What was the heat flow? d) Now, keeping pressure constant, heat is put into the gas, doubling the volume. How much heat is added? e) What...
The work done on an ideal gas is -5.41 x 10^6 J during a process in...
The work done on an ideal gas is -5.41 x 10^6 J during a process in which the temperature remains constant at 323 C and the volume changes from 2.14 m3 to 7.28 m3? How many moles of the gas are there? Express your result to three significant digits and in scientific notation. Be careful with signs!
2 moles of compressed air (diatomic gas) in a cylinder under the initial condition T1=573K p1=500kPa....
2 moles of compressed air (diatomic gas) in a cylinder under the initial condition T1=573K p1=500kPa. Found v1=0.019m^3 but can not remember then how to find V2. I think that it has something to do with T1=T2 condition then P2 can be found.... but stuck on how to proceed so with FULL written explanations with working would be much appreciated! All question info on practice exam below - note ISOTHERMAL EXPANSION. for part ii which after an explanation first. Two...
(a) During 1 complete cycle of an ideal heat engine performs 250J of work and transfers...
(a) During 1 complete cycle of an ideal heat engine performs
250J of work and transfers 150J of hear ro a low reservoir, which
has a temprature of 100 C ?
i)how much heat enters the engine (|Qh|)
ii)what is the efficiency of the ideal engine?
iii)what is the temperature of the high temperature reservoir
?
(b) When temperature of an aluminum coin is increase by 100C and
its circumference increases by %23
i)find the coefficient of linear expansion
ii)find...
can you help me with this plesae?
O 3.5/7 points Previous Answers Tipler6 19 PO34 My Notes One mole of an ideal monatomic gas at an initial volume Vi30 L follows the cycle shown in the figure. All the processes are quasi-static. PkPa 200 Isotherm 100 2V, v.L (a) Find the temperature of each state of the cycle. X K (state 1) X K (state 2) X K (state 3) q (b) Find the heat flow for each part of...
(a) During 1 complete cycle of an ideal heat engine performs
250J of work and transfers 150J of hear ro a low reservoir, which
has a temprature of 100 C ?
i)how much heat enters the engine (|Qh|)
ii)what is the efficiency of the ideal engine?
iii)what is the temperature of the high temperature reservoir
?
(b) When temperature of an aluminum coin is increase by 100C and
its circumference increases by %23
i)find the coefficient of linear expansion
ii)find...
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