Must answer all the questions otherwise dont attempt i will dislike it. 1.Moist air has a dry bulb temperature of 110 F and a wet bulbtemperature of 87 F. The air is at a total pressure of 50 psia. Calculate thefollowing.The humidity ratio, W [lbm H,O Vapor/lbm Dry Air]The relative humidity, [percent]The dew point temperatureThe specific volume [ft'/bm Dry Air]The density of the water vapor [lbm H20 Vapor/ft'Ia.b.с.d.e.Universal gas constant, R 1545 [ft-lbf/lbmol-R]Molecular weight dry air 28.965Molecular weight water 18.015 Table 3 Thermodynamie Properties of Water at Saturation (ConsinuedSpecific Volume fSal.Enthaloy, Bi/bEntroos, R-"FTemp.t. "FAbselate PressereSat,VaperSat.Sat.Sat.LiuldLiguidSatEna Vapor TenpEvagLiquidEvap.Vaporpaiin. Hg53543556570.199000.206430114100.222020.230200.238640.247350.256150.265620.275190.285060.295240.305740.316560.127720.339210.351070.401160.420290.43910.452040.468690.48S8S0.50620.521920.540810.360290.0160 1533.220.0160 148O.190.01603 1430.510.01603 1382.190.01601 1335.650.01603 1290.850,01601 1247.760.01604 1205.J00.01604 1166.380.01604 1127.930.01604 1090.940.01604 1055.320.01604 1020.980.016041333 241480.911430.621382.211335.671290.871247.181206.321166.401127.951090.9521 07 1061.27 1084.3422.07 1062.71 1084.7723.07 1052.14 1ORS.2124.07 1061.58 1085.4525.07 1051.01 1086.0826.07 1060.45 1036.5227.07 1059.19 106.9621.07 1039.32 1087.3929.07 1058.76 1087.1330.07 105E.19 208.2731.97 1057.6) 10.7032.07 1057.07 1O19.14 03I 10136 2.0E33.07 1056.50 1089.5734.07 1055.94 1090.0135.07 L055.37 1090.4436.07 1054.SI 1090.37.01 1054.24 1091.3131.07 1053.68 1OP1.1539.07 1053.l 1092.1840.07 1052.35 1092.6141.07 1051.98 1093.052.06 1051.42 1093.4843.06 10so.85 1093.9244.06 1050.29 1094.3345.06 1049.72 1094,7846.0 1049.1s 1095.221.06 1049 1095.5500420 2.0740 21190.0439 2.06 ZIISOAS9 20637 2.1056C.0478 2.056 2.10640.0497 20536 2.103333541519606162616465666768690.0036 20435 2.09710.0s55 2.038S 2.05400.0573 20334 2.0090.0594 2.029S 2.0780.0613 2.021s 206481960620.601120.622490.644520.567240.690650.114781021.00987.97916.12925.45895.874.0651 2.0136 2.0T0.060 2.007 2.01580.06 2.0039 20a0.070 1.9990 2.0600727 1.994E 2.0664636667987.950.01605956.110.0160S925.440.01605895.867071720.363250.375860.38S20.402170.419920,430080.4446S0.459660.475100.491000,739640.765250.791640.0160167.34367.16839.8li3.39T87.87763.21739.44726.53794.40673.06652.460.0746 1.993 206390.0765 1.9845 1.06100.073 19797 2.0s800.C02 t.9749 20520.021 1.91C2 2.05230.040 1.9654 204200.01605839.870.01606 13.370.01606 157.85C.01606 763.190016060.016060.016070.016070.0160773T475767778790.846820.875640.905320.93870.967120.99968739.42716.51694.38673.05652.440.O 1.9560 20370.O6 1.9513 2OAOS0.0914 19456 2000.507360.524190.541500.539310.577630.996471.012981.067251.102501.13877L176061.21442612. 54613.35594.82S76.90539.63632.16613.37594.84576.91139.65542.94126.814.06 1048.03 1096.0849.06 1047.46 1096.5130.05 1046. 19g 1096.9551.05 1046 33 1097.3852.05 1045.15 1091.133.05 1043.19 1098.2454.05 1044.63 1098.6735.05 1044.06 1099.1156.05 1043.49 1099.5437.04 1042.92 1099.970.093 1.9420 2essa0.091 19113 201240.00 1.9317 2.0970.098 1.921 2.0290.1006 1.9215 2020.1025 1.319 2140.1043 1.9144 20170.1061 1.9098 2.0160818283840.016080.016CA0.016080.016080.016090.016090.016090.01690.01610542.93$26.10160.613840.633750.656220.677261.24401.36081.3789217496.14481.6018496.1541.610.1080 1.9053 2.01330.109E 1.900 2.01051958.04 1042.36 n00.40. 01116 L1963 2.00959.04 1041.79 1100.830.04 1041.1z 1101.2661.04 1040.65 1101.6962.04 1040.OE 1102.1263.03 1039.51 1102.5564.03 1038.9s 1102.983.03 1038.SE 1103.4166.03 1037.SI 1101.457.05 L037 24 1104.25909091929394950.49290.121110.74194G.767400.791500.1615467.53453.93440.7428.06415.76403.36192.34381.21370,44360.011.422951468201314681 562440.016100.016110.016110.016110.016120,016120.01612467.520.01610 453.91440.76422.04415.74405.4392.1331.20370.42359.99a14 LBI 2003a112 14 2.006a10 1H29 2.00000.11 17S L9a1206 L41 1.99470.1224 1.7 1.9921C.1242 1.8653 1.98950.1260 1.861O 1700.127 1.8566 1.9841.6619959795990.154560.91207L766781.8213499C.016130.12 1.8523 19I0.1314 1.5479 1.97930.1332 146 19760.1349 193 1974100349.92340.15330,7132135312.69304.10295.77287.73279.92272.36.03 1036.67 1104.499.03 1036.1O 110s.1270.02 1035.5 1053571.02 1034.9S 1105.9872.02 1034.38 1106.4071.02 1013.81 1106.314.02 1033.24 1107.2615.01 1032.67 IB07.6815.01 101210 11OR.1177.01 103132 1108.5478.01 1030.95 1108.9679.01 1030.38 1109.3930.01 1029.80 1109I1.01 1029 23 I0.242.00 1028.66 1110.603.00 1028.08 LII.0954.00 1027.SI II.SIE5.00 1026.93 1111.9356.00 1026.36 1112.3s87.00 1025.7 1117 78.00 1025 30 1113 201000.90310.979101.009041.0960.016130.0161)0.016140.016141.93451.991872.054432.116672.180342.145752312852,381682412252.12464349.91340.14J30.69221.13312.47304.01291.76287.1279.91272.34102103104105106107108109104105106107L11997L16771.204129990.016150.016150.016160.016160.01616138S 1.0E 1.a14 L.26 L44a1420 11223 L64)G.143 L I L96192.1455 1.139 1.994109a.1473 18097 195700.1490 1.05 195460.1S0 1.8014 1.9210.125 17912 1.9810.1543 1.793I 1.541101101.27644263.03257.9)251.04244.38237.900.01617253.022674942.752932.112582.914812.998780.01617257.91231.020.01617244.160.0161E0.01618237.890.01619231.420.01S19225.130.01619 219.631121131141.391381431621121131141150.1377 LT9 1.25G.195 LTOS L0.1612 1.67 L3G.1629 1.1726 1.9356a.1647 1.7686 1.933211617125.15119.65113.93200.37202.991.5423.172961.263270.01420213.9119120t.648203.016200.01620208.36202.93.41052120

Note: Since you have posted a question with multiple sub-parts, we will solve first three sub- parts…

1. Moist air has a dry bulb temperature of 110 F and a wet bulb temperature of 87 F. The air is at a total pressure of 50 psia. Calculate the following. The humidity ratio, W [lbm H20 Vapor/lbm Dry Air] b. The relative humidity, [percent] The dew point temperature The specific volume [ft'/lbm Dry Air] The density of the water vapor [lbm H20 Vapor/ft'I a. с. d. e. Universal gas constant, R 1545 [ft-lbf/lbmol-R] Molecular weight dry air 28.965 Molecular weight water 18.015 %3D

1. Moist air has a dry bulb temperature of 110 F and a wet bulb temperature of 87 F. The air is at a total pressure of 50 psia. Calculate the following. The humidity ratio, W [lbm H20 Vapor/lbm Dry Air] b. The relative humidity, [percent] The dew point temperature The specific volume [ft'/lbm Dry Air] The density of the water vapor [lbm H20 Vapor/ft'I a. с. d. e. Universal gas constant, R 1545 [ft-lbf/lbmol-R] Molecular weight dry air 28.965 Molecular weight water 18.015 %3D

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Related questions

Q: hello im not sure how you are getting A an B could you elaborate?

A: Consider following given figure.Here,Support at A is a pinned support and support at B is a roller…

Q: KIPP: KIPP: TEXAS BEYOND PUBLIC SCHOOLS ACADEMICS 5. Harrison claims that waves travel faster when…

A: For the given question the answer is

Q: 1 "16. You have just moved to a hot, dry climate where it is 37C and 20% rh, and the heat is…

Q: Procedure: 1. Look up the materials that make up a smartphone. Take notes in a table like the one…

A: Minerals are the substance found in the earth's crust useful to mankind. Smartphone is a Pinnacle of…

Q: What is the temperature of an object where it is half as hot as 80 degrees Fahrenheit?

A: The temperature is 80°F The temperature of an object is half of the given temperature.

Q: Job Safety Analysis on a task and must have a minimum of five discrete steps and some risks…

A: The objective of this question is to perform a Job Safety Analysis (JSA) on the task of changing a…

Q: A graphical language used by engineers, draughtsman and other technical personnel Technical Writing…

A: Solution:

Q: Learning Goal: To understand and apply the formula T = Ia to rigid objects rotating about a fixed…

Q: 1) 20N/m 60 N/m 4 m 2 m 2)

Q: Explain in detail the Application of Physics (Electricity and Magnetism) in Engineering, especially…

A: The application of physics especially electricity and magnetism part in manufacturing are:-…

Q: Q)land development company is considering the purchase of earth-moving equipment. This equipment…

A: Given dataOption A - Purchasing the equipmentEstimated first cost of purchase = $163,000Maintenance…

Q: Ideal and real gases are described below. Select a correct description. O a. For a fixed amount of…

A: Ideal gas Gasses that elastically collide amongst their molecules and that do not have…

Q: ready to move. Pick a mass of the object and one type of surface and record them. Mass (M) Surface…

A: The image you sent appears to be a lab instruction that deals with static friction.The text in the…

Q: I need these three parts answered (Multiple Choice). If you can not answer all three parts please…

A: Inverted section view is used on the main views of section B-B. Hence, the correct choice is (a).

Q: Help!!! Please answer part A and part B correctly!!! Please!!!

Q: A dust particle is suspended in the air (floating due to a small updraft and its own low mass) when…

A: To answer this question we need to first understand what sound is how it propagate in matter. Sound…

Q: can tutor explain the questions more detailed

A: Weight on the wing, W = 80 KNLift force on the wing, F = 100 kNThe cross-sectional area of the wing,…

Q: Multiple Choice The pressure applied to a confined fluld increases the pressure throughout by the…

Q: 1. In the process of taking a gas from state a to state c, along the curved path, 80 J of heat leave…

Q: f you could jump to the height of the moon, how fast woukd you have to leave the ground?

A: A successful jump on Earth can clear more than half a metre (1.6 ft) in under a second. However,…

Q: I am confused because on my homework i got marked wrong for this, unless I used to many sig figs.

A: The given solution is correct and cannot be marked wrong.

Concept explainers

Corrosion control methods

Corrosion may be defined as the method in which metals are attacked on their exteriors by gases existing in the atmosphere, converting them to their oxides, nitrides, sulfides, etc.

Question

Must answer all the questions otherwise dont attempt i will dislike it.

1.
Moist air has a dry bulb temperature of 110 F and a wet bulb
temperature of 87 F. The air is at a total pressure of 50 psia. Calculate the
following.
The humidity ratio, W [lbm H,O Vapor/lbm Dry Air]
The relative humidity, [percent]
The dew point temperature
The specific volume [ft'/bm Dry Air]
The density of the water vapor [lbm H20 Vapor/ft'I
a.
b.
с.
d.
e.
Universal gas constant, R 1545 [ft-lbf/lbmol-R]
Molecular weight dry air 28.965
Molecular weight water 18.015

Table 3 Thermodynamie Properties of Water at Saturation (Consinued
Specific Volume f
Sal.
Enthaloy, Bi/b
Entroos, R-"F
Temp.
t. "F
Abselate Pressere
Sat,
Vaper
Sat.
Sat.
Sat.
Liuld
Liguid
Sat
Ena Vapor Tenp
Evag
Liquid
Evap.
Vapor
pai
in. Hg
53
54
35
56
57
0.19900
0.20643
011410
0.22202
0.23020
0.23864
0.24735
0.25615
0.26562
0.27519
0.28506
0.29524
0.30574
0.31656
0.12772
0.33921
0.35107
0.40116
0.42029
0.4391
0.45204
0.46869
0.48S8S
0.5062
0.52192
0.54081
0.36029
0.0160 1533.22
0.0160 148O.19
0.01603 1430.51
0.01603 1382.19
0.01601 1335.65
0.01603 1290.85
0,01601 1247.76
0.01604 1205.J0
0.01604 1166.38
0.01604 1127.93
0.01604 1090.94
0.01604 1055.32
0.01604 1020.98
0.01604
1333 24
1480.91
1430.62
1382.21
1335.67
1290.87
1247.18
1206.32
1166.40
1127.95
1090.95
21 07 1061.27 1084.34
22.07 1062.71 1084.77
23.07 1052.14 1ORS.21
24.07 1061.58 1085.45
25.07 1051.01 1086.08
26.07 1060.45 1036.52
27.07 1059.19 106.96
21.07 1039.32 1087.39
29.07 1058.76 1087.13
30.07 105E.19 208.27
31.97 1057.6) 10.70
32.07 1057.07 1O19.14 03I 10136 2.0E
33.07 1056.50 1089.57
34.07 1055.94 1090.01
35.07 L055.37 1090.44
36.07 1054.SI 1090.
37.01 1054.24 1091.31
31.07 1053.68 1OP1.15
39.07 1053.l 1092.18
40.07 1052.35 1092.61
41.07 1051.98 1093.05
2.06 1051.42 1093.48
43.06 10so.85 1093.92
44.06 1050.29 1094.33
45.06 1049.72 1094,78
46.0 1049.1s 1095.22
1.06 1049 1095.55
00420 2.0740 2119
0.0439 2.06 ZIIS
OAS9 20637 2.1056
C.0478 2.056 2.1064
0.0497 20536 2.1033
33
54
15
19
60
61
62
61
64
65
66
67
68
69
0.0036 20435 2.0971
0.0s55 2.038S 2.0540
0.0573 20334 2.009
0.0594 2.029S 2.078
0.0613 2.021s 20648
19
60
62
0.60112
0.62249
0.64452
0.56724
0.69065
0.11478
1021.00
987.97
916.12
925.45
895.87
4.0651 2.0136 2.0T
0.060 2.007 2.0158
0.06 2.0039 20a
0.070 1.9990 2.06
00727 1.994E 2.0664
63
66
67
987.95
0.01605
956.11
0.0160S
925.44
0.01605
895.86
70
71
72
0.36325
0.37586
0.38S2
0.40217
0.41992
0,43008
0.4446S
0.45966
0.47510
0.49100
0,73964
0.76525
0.79164
0.0160
167.34
367.16
839.8
li3.39
T87.87
763.21
739.44
726.53
794.40
673.06
652.46
0.0746 1.993 20639
0.0765 1.9845 1.0610
0.073 19797 2.0s80
0.C02 t.9749 2052
0.021 1.91C2 2.0523
0.040 1.9654 204
20
0.01605
839.87
0.01606 13.37
0.01606 157.85
C.01606 763.19
001606
0.01606
0.01607
0.01607
0.01607
73
T4
75
76
77
78
79
0.84682
0.87564
0.90532
0.9387
0.96712
0.99968
739.42
716.51
694.38
673.05
652.44
0.O 1.9560 2037
0.O6 1.9513 2OAOS
0.0914 19456 200
0.50736
0.52419
0.54150
0.53931
0.57763
0.99647
1.01298
1.06725
1.10250
1.13877
L17606
1.21442
612. 54
613.35
594.82
S76.90
539.63
632.16
613.37
594.84
576.91
139.65
542.94
126.81
4.06 1048.03 1096.08
49.06 1047.46 1096.51
30.05 1046. 19g 1096.95
51.05 1046 33 1097.38
52.05 1045.15 1091.1
33.05 1043.19 1098.24
54.05 1044.63 1098.67
35.05 1044.06 1099.11
56.05 1043.49 1099.54
37.04 1042.92 1099.97
0.093 1.9420 2essa
0.091 19113 20124
0.00 1.9317 2.097
0.098 1.921 2.029
0.1006 1.9215 202
0.1025 1.319 214
0.1043 1.9144 2017
0.1061 1.9098 2.0160
81
82
83
84
0.01608
0.016CA
0.01608
0.01608
0.01609
0.01609
0.01609
0.0169
0.01610
542.93
$26.10
16
0.61384
0.63375
0.65622
0.67726
1.2440
1.3608
1.37892
17
496.14
481.60
18
496.15
41.61
0.1080 1.9053 2.0133
0.109E 1.900 2.0105
19
58.04 1042.36 n00.40. 01116 L1963 2.009
59.04 1041.79 1100.83
0.04 1041.1z 1101.26
61.04 1040.65 1101.69
62.04 1040.OE 1102.12
63.03 1039.51 1102.55
64.03 1038.9s 1102.98
3.03 1038.SE 1103.41
66.03 1037.SI 1101.4
57.05 L037 24 1104.25
90
90
91
92
93
94
95
0.4929
0.12111
0.74194
G.76740
0.79150
0.1615
467.53
453.93
440.7
428.06
415.76
403.36
192.34
381.21
370,44
360.01
1.42295
146820
131468
1 56244
0.01610
0.01611
0.01611
0.01611
0.01612
0,01612
0.01612
467.52
0.01610 453.91
440.76
422.04
415.74
405.4
392.13
31.20
370.42
359.99
a14 LBI 2003
a112 14 2.006
a10 1H29 2.0000
0.11 17S L9
a1206 L41 1.9947
0.1224 1.7 1.9921
C.1242 1.8653 1.9895
0.1260 1.861O 170
0.127 1.8566 1.984
1.6619
95
97
95
99
0.15456
0.91207
L76678
1.82134
99
C.01613
0.12 1.8523 19I
0.1314 1.5479 1.9793
0.1332 146 1976
0.1349 193 1974
100
349.92
340.15
330,71
32135
312.69
304.10
295.77
287.73
279.92
272.36
.03 1036.67 1104.49
9.03 1036.1O 110s.12
70.02 1035.5 10535
71.02 1034.9S 1105.98
72.02 1034.38 1106.40
71.02 1013.81 1106.3
14.02 1033.24 1107.26
15.01 1032.67 IB07.68
15.01 101210 11OR.11
77.01 103132 1108.54
78.01 1030.95 1108.96
79.01 1030.38 1109.39
30.01 1029.80 1109I
1.01 1029 23 I0.24
2.00 1028.66 1110.60
3.00 1028.08 LII.09
54.00 1027.SI II.SI
E5.00 1026.93 1111.93
56.00 1026.36 1112.3s
87.00 1025.7 1117 7
8.00 1025 30 1113 20
100
0.9031
0.97910
1.00904
1.096
0.01613
0.0161)
0.01614
0.01614
1.9345
1.99187
2.05443
2.11667
2.18034
2.14575
231285
2,38168
241225
2.12464
349.91
340.14
J30.69
221.13
312.47
304.01
291.76
287.1
279.91
272.34
102
103
104
105
106
107
108
109
104
105
106
107
L11997
L1677
1.204
12999
0.01615
0.01615
0.01616
0.01616
0.01616
138S 1.0E 1.
a14 L.26 L44
a1420 11223 L64)
G.143 L I L9619
2.1455 1.139 1.994
109
a.1473 18097 19570
0.1490 1.05 19546
0.1S0 1.8014 1.921
0.125 17912 1.981
0.1543 1.793I 1.54
110
110
1.27644
263.03
257.9)
251.04
244.38
237.90
0.01617
253.02
267494
2.75293
2.11258
2.91481
2.99878
0.01617
257.91
231.02
0.01617
244.16
0.0161E
0.01618
237.89
0.01619
231.42
0.01S19
225.13
0.01619 219.63
112
113
114
1.39138
143162
112
113
114
115
0.1377 LT9 1.25
G.195 LTOS L
0.1612 1.67 L3
G.1629 1.1726 1.9356
a.1647 1.7686 1.9332
116
17
125.15
119.65
113.93
200.37
202.99
1.542
3.17296
1.26327
0.01420
213.91
19
120
t.64820
3.01620
0.01620
208.36
202.9
3.41052
120

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

1.3 A mixture of two liquids of equal volume is made, the one has a relative density of 0,8 and the other a density of 980 kg/m³. What will the weight of 2 500 litres be? 1.4 1.5 1.6 15 1.7 [21830 N] A solid block of stone with a relative density 4 is broken down and crushed to an average size of 20 mm. If the stone originally had a volume of 50 m³, how many truck loads with a volume of 2 m³, will it take to transport the crushed stone if 25 of the crushed stone has a mass of 80 kg. Has the relative density changed? How much? Why? [32 truck loads] Use table 1.4.2 to determine the kinematic viscosity of crude oil with a density of 855 kg/ m³ at temperatures of 20°C and 100°C. [9,357 x 10-6 m²/s; 3,275 x 10-6 m²/s] Air is used in a sensitive gyroscope to keep the metal bearing surfaces apart. Will the friction losses in the bearing be higher, lower or the same if the temperature of the bearing increases? A widely used S.I. unit for kinematic viscosity is centi- stoke cSt. One stoke is…
In order to fnd the specifc heat c of an unknown substance, you place 75 g of the substance in a 30 g copper calorimeter that contains 65 g of water, all initially at 20 °C. You then add 100 g of water at 80 °C, and measure the fnal temperature of the system to be 49 °C. Assuming no heat is lost to the environment, what is c? [Answer: c = 2200 J/kg. K] 즈
In a building located at sea level, air flowing at 6000 lbm/hr is cooled from 80°F drybulb and 75°F wet-bulb to full saturation at the outlet of a cooling coil operating with an apparatus dew point temperature of 55°F. Please determine the following and mark process on a psychrometric chart at sea level a) The amount of water removed in [lbm/hr] b) The amount of latent heat removed in [BTU/hr] c) The amount of sensible heat removed in [BTU/hr] d) The Sensible Heat Factor of the cooling coil e) The cooling coil capacity in [BTU/hr]
(b) By using the psychrometric chart, fill up the table below for mass balance. Set 1 w[kg/kg dry air] v[m³/kg dry air] Inlet (A) Outlet (B) Set 2 ONLY Inlet (A) Outlet (B) 0.013 Inlet (A) Outlet (B) 0.017 co[kg/kg dry air] 0.014 0.019 61 0.86 68 v¯[m³/kg dry air] 0.87 62 74 [kg dry air/s] m₂ (c) By using the psychrometric chart, fill up the table below for energy balance. het 2 [kJ/kg dry air] het i [kJ/kg dry air] 0.0586 [kg dry air/s] m₂ 0.0582 I
b) Complete the cells in the following table of properties of water. In the last column describe the condition of water as compressed liquid, saturated mixture or superheated vapour. If it is a saturated mixture, give the quality as well. k] |Condition and quality, if applicable Saturated vapour T (°C) P (kPa) k]. `kg' kg K' 160 2000 350 200 100 110 125
Fill out the given table for substance water showing calculations.
2. Complete the blank cells in the following table of properties of steam. In the last column describe the condition of steam as compressed liquid, saturated mixture, superheated vapor, or insufficient information; and, if applicable, give the quality. P[kPa] T[°C] v[m³/kg] а. 500 20 b. 500 0.20 с. 1400 200 d. 300 0.8
I was marked incorrect for the following order: A, D, C, B, E Please help, thanks
Problem 3. Using the T-s chart complete the following table of thermodynamic properties for water. Show your states on the chart. State 1 N 3 4 T [°C] 500 100 P[kPa] 2000 10.000 v [m³/kg] h [kJ/kg] 3445 Phase [Quality if Applicable] Sat. vapor [x = 1.0] Saturated [x = 0.75]
Answer Q1 and Q2 (thermofluids)
A hemispherical container, 26 inches in diameter, is filled with a liquid at 20°C and weighed. The liquid weight is found to be 1617 ounces. What is the density of the fluid in kg/m3? ]kg/m3
A perfect gas has a constant pressure specific heat, cp, of 0.846 kJ/(kg K) and a constant volume specific heat, cv, of 0.657 kJ/(kg K). Determine the relative molar mass (molecular weight) of the gas. [RMM=44]