Consider the following figure. (The x axis is marked in increments of 1.5 m3.)
(a) Determine the work done on a gas that expands from i to fas indicated in the figure.
(b) How much work is performed on the gas if it is compressed from f to i along the same path?
A)
Work, W = (1.5 x 6 x 10^6) + (1.5 x 2 x 10^6) + (0.5 x 1.5 x (6 - 2) x 10^6) + (1.5 x 2 x 10^6)
W = 18 x 10^6 J
Work done on gas, W = - 18 MJ
B)
W = 18 MJ
Comment in case any doubt please rate my answer...
Consider the following figure. (The x axis is marked in increments of 1.5 m3.)
Consider the following figure. (The x axis is marked in increments of 2.5 m².) P (Pa) 6 X 106 4 X 106 2 x 106 V (m) (a) Determine the work done on a gas that expands from i to f as indicated in the figure. M] (b) How much work is performed on the gas if it is compressed from ftoi along the same path? MJ
A gas is taken through the cyclic process described in the figure. (The x axis is marked in increments of 2 m3) (a) Find the net energy transferred to the system by heat during one complete cycle. b) If the cycle is reversed-that is, the process follows the path ACBA-what is the net energy input per cycle by heat.
In the graph below, each unit on the horizontal axis is 1.50 X 10-3 m3 and each unit on the vertical axis is 0.3 atm. TUTTI (a) Determine the change in internal energy of the gas if 2302 ) of heat is added as it expands in volume along the direct path CA. (b) To get the same change in internal energy, how much heat must be added to the gas as it goes along the path CBA?
Isothermal
Consider the following. P (kPa) 800 700 600 500 400 300 200 100 86(n) 1 2 3 4 5 6 7 8 9 (a) Find the work done by an ideal gas as it expands from point A to point B along the path shown in the figure. MJ (b) How much work is done by the gas if it compressed from B to A along the same path? MJ
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
a. Find the work done BY a gas as it expands and is taken from state I to state F along the path IABF indicated in the PV diagram below given that P; = 4 x 106 Pa, Pr= 1 x 106 Pa, V; = 2 m), and Vf= 10 m². First, scale the graph according to these values. b. How much work is done BY the gas if it is now compressed from state F to state I along...
In the graph below, each unit on the horizontal axis is 1.20 × 10-3 m3 and each unit on the vertical axis is 40.0 kPa. The lower left corner of the graph is 0 kPa and 0 m3 (a) Determine the change in thermal energy of the gas if 2362 J of heat is added as it expands in volume along the direct (diagonal) path from state C to state A (b) If the temperature of the gas is 533...
PLEASE SHOW YOUR WORK. THANK YOU.
(a) Find the work done by an ideal gas as it expands
from point A to point B along the path shown in
the figure.
_____MJ
(b) How much work is done by the gas if it compressed from
B to A along the same path?
____ MJ
P ( kPa) 1200 1100 1000 900 800 700 600 500 400 300 200 100 v (m2) 1 2 3 4 5 6 7 8 9
A sample of gas expands from 2.0 m3 to 8.0 m3 while its pressure decreases from 8.0 Pa to 2.0 Pa. How much work is done by the gas if its pressure changes with volume via each of the three paths shown in the figure?
A gas increases in pressure from 2.00 atm to 6.00 atm at a
constant volume of 1.00 m3 and then expands at constant pressure to
a volume of 3.00 m3 before returning to its initial state as shown
in the figure below. How much work is done in one cycle? kJ