An ideal monatomic gas goes from P1 = 150 atm and V1 = 25 m3 to P2 and V2 via an adiabatic process. If P2 = 40 atm, what is V2 in m3?
An ideal monatomic gas goes from P1 = 140 atm and V1 = 55 m3 to P2 and V2 via an adiabatic process. If P2 = 60 atm, what is V2 in m3?
A gas is compressed from V1 = 0.3 m3, p1 = 1 bar to V2 = 0.1 m3, p2 = 1.9 bar. Pressure and volume are related linearly during the process. For the gas, find the work, in kJ.
An ideal gas, initially at P1 = 0.75 bar, undergoes an adiabatic expansion from V1 = 10.0 L to V2 = 30.0 L. What is the final pressure and temperature of this gas? Explain how you got this.
If (P1 = 3 atm, V1 = 0.2 m3) and (P4 = 1 atm, V4 = 0.4 m3) and
the heat absorbed by 12 mol of and ideal gas undergoing the Carnot
cycle is 10 kJ, what is the work done?
AIsothe Expansion 2 Isothermal Compression Volume →
A sample of gas expands from V1 = 1.1
m3 and p1 = 46 Pa to
V2 = 4.8 m3 and
p2 = 18 Pa along path B in the
p-V diagram in the figure below. It is then compressed
back to V1 along either path A or path
C. Compute the net work done by the gas for the complete
cycle along (a) path BA and
(b) path BC.
0
ss.19.2.8
The picture shows a circular process of an ideal monatomic gas
in the amount of 1 mole in the coordinates (p,V). In which sections
of the process does the gas absorb heat and in which sections does
it release heat? Find the efficiency of the cycle. The pressures
p1, p2 and volumes V1, V2 are given.
a clear explanation is highly appreciated! Thanks!
vd
If the engine uses 5 moles of an ideal gas what are the volumes:
V1, V2, V3, and V4?
T, IT, p1 15 atm p2 3 atm 600 K 300 K 1V4 V2
A monatomic ideal gas initially fills a container of volume V = 0.15 m3 at an initial pressure of P = 360 kPa and temperature T = 275 K. The gas undergoes an isobaric expansion to V2 = 0.55 m3 and then an isovolumetric heating to P2 = 680 kPa. a) Calculate the number of moles, n, contained in this ideal gas. b) Calculate the temperature of the gas, in kelvins, after it undergoes the isobaric expansion. c) Calculate the...
A sample (8.1 mol) of an ideal monatomic gas goes through the process shown in Figure below. From A to B, the process is adiabatic; from B to C, it is isobaric with 345 kJ of energy entering the system by heat. From C to D,the process is isothermal from D to d,itis sobarie with 3711 of energy leaving the system by heat. P (atm) 12 (m') 0.09 0.2 0.4 (a) Determine the difference in internal energy Eint,B-EinA (b) Determine...
Dmole of an ideal gas follows the cycle shown in the figure. 1-2 is isochoric process, 2-3 is adiabatic process and 3-1 is isobaric process. Vi, Pi are given; V2-2V, P2- P/3. Determine (according to P1, V1) a) Adiabatic coefficient y and molar specific heats Cv and Cp (from the process 2-3) ? b) The heats from 1-2 and 3-1 processes? c) The thermal efficiency of the engine operating with this cycle. PI P2 V2 VI ..
Dmole of an...