Using the Steam Table below, find Ahç and Ahg in BTU/lbm and Asf and Asg in kJ/kgm-K and for the following parameters: • P1 = 9.5 kg;/cm² • P2 = 15 kg;/cm² %3D NOTE: This table uses SI unit as stated below: Pressure: MPa Temperature: °C Internal Energy and Enthalpy: kJ/kgm Entropy: kJ/kgm-K Enthalpy Sat Entropy Sa Speciic Volume Sa Ligaid 10, Internal Energy Sal Vaper Erp Teme Pree MP Vaper 10 Liid Var h 101 LIIS 168 32 LI21 LI128 169 39 1.1I35 1699 2556 252 4 2493 2463 2433 708.64 1866.1 2574.7 711.00 18642 2575.2 713.34 18622 2575.6 715.66 18603 2576.0 717.95 18585 25164 718.83 20498 2768.6 709 47 2057.0 2766 4 71135 2055.2 27670 714.20 20534 2767.5 716.52 20516 2768.1 2.0200 46647 66547 20253 46549 6.6802 20106 4.6451 66758 20159 4.6355 66714 2.041I 4.6260 6.6670 167.78 V74 6 163-55 154 59 75 16 1686 L46 6 Li142 35 6 32 6 30 6 170.43 LI148 170.95 LI1S5 171 46 L1161 171.97 1168 17247 LI174 240 4 237.6 234.9 2322 229.5 720 22 IA566 25768 722.47 18547 25772 724.70 18529 25776 726 91 1ASLI 25780 729.10 1849 2 25783 230.04 2041.1 2771.2 721. 2048.0 2769.1 723.38 20463 2769.7 725.62 2044.5 2770.2 237.83 2042.8 2770.7 2.0462 4.6166 6.6628 20513 46073 6.6585 20563 4.5981 6.6544 2.0612 4.5890 66502 2.0662 4.5800 6.6462 83 84 30 33 6 36 6 41 69 172 96 LII8 173 46 L1I87 173 94 LI193 174.43 1.1200 L1206 2270 224.5 222.0 2196 217.3 731.27 1847.4 2578.7 733.42 1845.7 2579.1 735.55 1843.9 2579.4 737.66 1842.1 2579.8 739.75 1840.4 2580.1 73222 2039.4 27716 734 38 2037.7 2772.1 736 52 2016.1 2772.6 T38.64 2034.4 2773.0 240 75 2032.8 2773 20710 4.5711 66421 2.0758 4.5623 6.6381 2.0806 4.5536 6.6342 2.0853 45450 6.6303 2.0900 4.5364 6.6264 89 174 90 47 65 54 65 62 69 71 6 2150 212.7 210.5 208.4 2063 74283 2031.1 2773.9 144.91 2029.5 2774.4 146.96 20279 27748 749.00 2026.3 2775.3 751.02 2024.7 2775.7 2.0946 45280 66226 2.0992 4 S196 6.61RA 5 1018 4SUL 661SI 2.1083 4.5031 6.6114 2.1127 4.4950 6.6077 .90 91 -92 93 94 175 38 175 85 176 31 176.78 17224 1.1212 11218 L1225 741.83 18386 2580 S 743.89 18369 2580 3 745.93 1835.2 2581.1 UC 75RI S 747.95 1833.5 2581.5 L1237 749.96 18318 2581.8 177.69 178 14 178 59 179 03 179 47 11243 11249 L1255 11251 L.1267 2042 202.2 200.2 198.2 1963 2.1172 4.4869 6.6041 2.1215 4.4789 6.6005 755 89 I8269 2182 16 98 20199 27269 21259 4.4710 65969 753.02 2023.1 2776.I 755 01 202LS 2776.5 756.98 2019.9 27769 758.94 2018.4 27773 751.95 1830.2 2582.1 753.93 1828.5 25824 93 6 18 6 48 6E .95 .96 97 2.1239 4.4710 6 5969 2.1302 44632 6.5934 760.88 2016.8 2771.7 2.1345 4.4555 6.5899 757 84 I8252 218LI 759.77 1823.6 2583.4 18 66 2.1387 4.4478 6.5865 179.91 180 77 181.62 182.46 183 28 1.1273 L.1284 LI296 L1308 L1319 76168 18220 25836 765.47 1818.8 25842 769 21 1815.6 25848 772 89 18125 2585.4 776 52 1809.4 2585.9 762.81 20153 27781 766 63 20122 27789 2.1471 4.4326 6.5796 770.38 2009 2 27796 21553 44177 65729 774.08 2006.2 2780.3 21634 4.4030 6.5664 777.14 20033 27810 2.1713 4.3886 6.5599 L00 194 44 59 619 02 L02 49 6s 98 61 190 80 187 30 18392 180 67 LOS 06 62 64 634 24 6 L12 L14 116 1.18 184.09 184.89 185.68 186.46 187.23 L1342 LI353 LI164 LIJ75 177.53 174 49 171.56 168 71 780.09 1806.3 2586.4 783.62 1803.3 2586.9 787.11 1800 3 2587.4 790.54 17974 2587.9 793.94 1794.4 2588.4 78134 2000O4 2781.7 2.1792 43744 6.5536 784 89 19975 2782.4 2.1869 4.3605 6 5473 T88 40 1994.6 2783.0 2.1945 4.3467 6.5412 791.86 199LS 2783.6 2.2020 4.3332 6.5351 795.28 1989.0 2784.2 165 99 2.2093 43199 6.5292 526 797.29 1791.S 2588.8 800 60 1788 7 25893 803.87 17859 2589.7 807.09 1783.0 2590.1 810.29 1780.3 2590.6 798.65 1986.2 27848 801.98 1983.4 2785.4 805.28 1980.7 2786.0 NOR 53 1978.0 2786.5 BI1.75 197S.3 2787.1 2.2166 4.3067 6.5233 2.2238 4.2938 6.5176 22309 4.2810 6.5119 2.2378 4.2685 6 5063 2.2447 4.2561 6 5008 120 LIBS I88 74 LI396 189.48 407 190.20 11417 190 93 L1428 187.99 163 33 0 67 122 1.22 L1396 160.77 1.24 y I.26 1.28 158 28 155 86 153 53 9 6 S 67 130 L32 L34 L36 19164 L1438 151.25 192 34 L.1449 149.05 193.04 1.1459 146.91 193.72 1.1 469 144.83 194.40 L1479 142.81 81344 17775 25910 814.93 1972.7 2787.6 2.2515 42438 6.4953 816.56 1774.8 25914 BI8.07 1970.0 2788.1 2.2582 4.2318 6.4900 S19.64 1772.1 2591.7 821.18 1967.4 2788.6 2.2648 4.2199 6.4847 822.69 1769 4 2592.1 824.25 1964.8 2789.1 2.27N 4.2081 6.4795 825.71 1766.8 2592.5 827.29 19623 2789.6 22778 4.1965 6.4743 L16 6 828.70 1764. 25928 831 65 1761.S 2593.2 834.57 1759.0 2593.5 837.46 1756.4 25939 840.33 17539 2594 2 842.03 1949.7 2791.7 830 10 1959.7 2790.0 2.2842 4.1850 6.4693 833 28 1957.2 27905 2.2905 4.1737 6.4643 836 23 1954.7 2790.9 839.14 1952.2 2791.3 195.07 1.1489 140.84 195.74 138.93 1.40 142 1.44 1.46 1.48 1.1499 11509 LIS19 LI529 133.49 196.39 197.04 197.69 137.07 135 25 2.2968 4.1625 6.4593 3029 4.1515 6.4544 2.3090 4.1406 6.4496

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
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Related questions
Question
2.2905 4.1717 43
Using the Steam Table below, find
Ahf and Ahg in BTU/lbm and Asfand Asg
in kJ/kgm-K and for the following
parameters:
P1 = 9.5 kg;/cm²
• P2 = 15 kg;/cm²
%3D
NOTE: This table uses SI unit as stated
below:
Pressure: MPa
Temperature: °C
• Internal Energy and Enthalpy: kJ/kgm
• Entropy: kJ/kgm-K
S55
35
11769
Entropy
Speciic Volume
Sat.
Vapar
10°%
Enthalpy
Internal Energy
Ret
Vaur
Sat
Vapor
Set
Sat
Nat.
Va
Sal.
Lind
hy
Lquid
Evap.
Sat
Liaid
10'y
Temp
Pre
MP
Liaid
u.
hy
01 6%
87 6.
V74 6.
63 69
154 69
2.0200 46647 6.6847
255.6
252 4
249 3
246 3
2433
708.64 1866.1 2574.7
711.00 I864.2 2575.2
713.34 1862.2 2575.6
715.66 1860.3 2576.0
717.95 1858.5 2576.4
109.47 2057.0 2766 4
711.85 2055.2 2767.0 2.0253 4.6549 6.6802
714.20 2053.4 2767.5
716.52 2051.6 2768.1
718.83 2049.8 2768.6
167.78
LIUS
75
.76
.77
LI121
10 20106 4.6451 6.6758
168.32
168.86 1.1128
169.39 1.1135
169.91
20159 4.6355 6.6714
2.0411 4.6260 6.6670
LI142
.79
146 6
40 6
135 69
32 69
30
2.0462 4.6166 6.6628
170.43 LI148
170.95 1155
171.46 1I161
171.97 1168
Li174
240.4
237.6
234.9
232.2
229.5
720.22 18566 2576
722.47 1854.7 2577.2
224 70 1852.9 25776
721.11 2048.0 2769.1
723.38 2046.3 2769,7 2.0513 4.6073 6.6585
.80
723.38 2046.3 2709.7 0561
725.62 2044.5 2770.2 2.0563 4.5981 6.6544
727.83 20428 2770.7 2.0612 4.5890 6.6502
730.04 204LI 2771.2 2.0662 4.5800 6.6462
82
726.91 18511 2578.0
129.10 1849.2 2578.3
84
172 47
LI174
30
6.
31 63
227.0
224.5
222.0
219.6
217.3
731.27 18474 2578.7
733 42 I845.7 2579.1
735.55 I843.9 25794
T37.66 1842.1 2579.8
739.75 1840.4 2580.1
732.22 2039.4 27716
734.38 2037.7 2772.1
736.52 2036.1 27726
738.64 2034.4 27730
740.75 2032.8 2773.5
2.0710 4.5711 6.6421
2.0758 4.5623 6.6381
2.0806 4.5536 6.6342
2.0853 4.5450 6.6303
2.0900 4.5364 6.6264
172.96
LI181
173.46 1.1187
.85
33 69
36 69
41 69
173.94 1.193
174.43 1.1200
1.1206
.87
89
174.90
47 69
54 69
62 69
71 6
74283 2031.1 2773.9 2.0946 45280 6.6226
175 38
175 85
176 31
176.78
177 24 1.1237
215.0
212.7
210.5
208 4
741.83 1838.6 2580.3
743.89 1836.9 25808 744.91 2029.5 2774.4 2.0992 45196 6.6188
745.93 18352 2581.I 746.96 20279 2774.8 2.1038 4.5113 6.6151
747.95 1833.5 2581.5
749.96 18318 2581.8
L.1212
11218
.90
.91
.92
.93
94
1.1225
1.1231
749.00 2026.3 27753 2.1083 4.5031 6.6114
751.02 2024.7 2775.7 2.1127 4.4950 6,6077
81 6
206.3
251 95 J810.2
751.95 1830.2 2582.1
753.93 1828.5 25824
753.02 2023.1 2776.1 2.1172 4.4869 6.6041
755.01 202LS 2776.5 2.1215 4.4789 6 6005
93 6
18 6
48 6
8I 6
18 6
.95
.96
.97
.98
99
177 69
178.14
178 59
179.03
179 47
11243
1.1249
1.1255
L1261
2042
202.2
200 2
755.89 1826.9 2582,7 756.98 2019.9 2776.9 2.1259 4.4710 6 5969
757.84 1825.2 2583.1
758.94 2018.4 2777.3 2.1302 4.4632 6.5934
1.1261
11267
198 2 257.84 I825.2 2583.1
1963
759.77 1823.6 2583.4 760.88 2016.8 2777.7 2.1345 4,4555 6.5899
762.81 20153 2778.1 2.1387 4.4478 6.5865
179.91
180.77
181.62
182.46
183.28
L.1273
1.1284
1.1296
L1308
761.68 1822.0 2583.6
765.47 1818.8 2584 2 766 63 2012.2 2778.9
169.21 1815.6 25848
772.89 1812.5 2585.4
776.52 1809.4 2585.9
194 44
59 689
02 6 BA
49 680
98 61M
51 6120
1.00
1.02
1.04
1.96
1.08
190 80
187 30
183.92
180.67
770.38 2009 2 2779.6 2.1553 44177 6.5729
774.08 2006.2 2780.3 2.1634 4.4030 6.5664
777.74 2003.3 2781.0 2.1713 4.3886 6.5599
L.1319
2.1792 4.3744 6.5536
784.89 1997.5 2782.4 2.1869 4.3605 6.5473
787.11 1800 3 25874 788 40 1994.6 2783.0 2.1945 4.3467 6.5412
2.2020 4.3332 6.5351
2.2093 4.31I99 6.5292
761.34 2000.4 2781.7
1.10
184.09
L12
2
184.89
1.14
185.68
186,46
1.16
1.18
187.23
17753
780.09 1806.3 2586.4
L1330
L.1342 174 49
L.1353 171 56
1,1364 168.73
165 99
06 68
64 681
I
24 68
K7 6
52 6
790.54 1797.4 2587.9
793.94 1794 4 2588.4
791.86 1991LS 2783.6
795.28 1989.0 2784.2
LI375
797.29 17915 2588.8 798.6S 1986.2 2784.8
801.98 1983.4 2785.4
805.28 1980.7 2786.0
NOR 53 19780 2786.5
810.29 1780.3 2590.6 811.75 1975.3 2787.1
2.2166 4.3067 6.5233
2.2238 4.2938 6.5176
2.2309 4.2810 6.5119
2.2378 4.2685 6.5063
2.2447 4.2561 6.5008
187.99 LI385 163 33
188.74 1.1396 160.77
20 6.76
89 6.
SI 6.7
s 67
I 6M
1.20
1.22
1.24 189.48
1.26
1.28
800 60 1788.7 2589.3
158 28 803 87 1785.9 2589.7
190.20 1.1417 155 86 807.09 1783.0 2590.1
190.93 1.1428 153.53
191.64 L.1438 151.25
192.34 1.1449 149.05
1.34 193.04 1.1459 146.91
193.72 1.1469
194.40 L.1479
813 44 1777.5 2591.0 814.93 1972.7 2787.6 2.2515 4.2438 6.4953
816.56 1774.8 25914 818.07 1970.0 2788.1 2.2582 4.2318 6.4900
819.64 1772.1 2591.7 821.18 1967.4 2788.6 2.2648 4.2199 6.4847
824.25 1964.8 2789.1 2.2714 4.2081 6.4795
2.2778 4.1965 6.4743
1.30
144.83 822.69 1769.4 2592.1
136
138
1 825.71 1766.8 2592.5
827,29 1962.3 2789.6
19 6.
6.
142.81
140.84 828.70 1764.1 2592.8
1.40
1.42
1.44
1.46
1.48
195.07
195.74 1.1499 138.93 831.65 1761.5 2593.2
196.39
197.04
197.69 L1529
830.30 1959.7 2790.0
833.28 1957.2 2790.5
836.23 1954.7 2790.9
839.14 1952.2 2791.3
842.03 1949.7 2791.7
2.2842 4.1850 6.4693
2.2905 4.1737 6.4643
2.2968 4.1625 6.4593
2.3029 4.1515 6.4544
2.3090 4.1406 6.4496
1.1489
1.1509 137.07 834.57 1759.0 2593.5
LIS19
135.25
133.49 840.33 1753.9 2594.2
837.46 1756.4 2593.9
6.
Transcribed Image Text:2.2905 4.1717 43 Using the Steam Table below, find Ahf and Ahg in BTU/lbm and Asfand Asg in kJ/kgm-K and for the following parameters: P1 = 9.5 kg;/cm² • P2 = 15 kg;/cm² %3D NOTE: This table uses SI unit as stated below: Pressure: MPa Temperature: °C • Internal Energy and Enthalpy: kJ/kgm • Entropy: kJ/kgm-K S55 35 11769 Entropy Speciic Volume Sat. Vapar 10°% Enthalpy Internal Energy Ret Vaur Sat Vapor Set Sat Nat. Va Sal. Lind hy Lquid Evap. Sat Liaid 10'y Temp Pre MP Liaid u. hy 01 6% 87 6. V74 6. 63 69 154 69 2.0200 46647 6.6847 255.6 252 4 249 3 246 3 2433 708.64 1866.1 2574.7 711.00 I864.2 2575.2 713.34 1862.2 2575.6 715.66 1860.3 2576.0 717.95 1858.5 2576.4 109.47 2057.0 2766 4 711.85 2055.2 2767.0 2.0253 4.6549 6.6802 714.20 2053.4 2767.5 716.52 2051.6 2768.1 718.83 2049.8 2768.6 167.78 LIUS 75 .76 .77 LI121 10 20106 4.6451 6.6758 168.32 168.86 1.1128 169.39 1.1135 169.91 20159 4.6355 6.6714 2.0411 4.6260 6.6670 LI142 .79 146 6 40 6 135 69 32 69 30 2.0462 4.6166 6.6628 170.43 LI148 170.95 1155 171.46 1I161 171.97 1168 Li174 240.4 237.6 234.9 232.2 229.5 720.22 18566 2576 722.47 1854.7 2577.2 224 70 1852.9 25776 721.11 2048.0 2769.1 723.38 2046.3 2769,7 2.0513 4.6073 6.6585 .80 723.38 2046.3 2709.7 0561 725.62 2044.5 2770.2 2.0563 4.5981 6.6544 727.83 20428 2770.7 2.0612 4.5890 6.6502 730.04 204LI 2771.2 2.0662 4.5800 6.6462 82 726.91 18511 2578.0 129.10 1849.2 2578.3 84 172 47 LI174 30 6. 31 63 227.0 224.5 222.0 219.6 217.3 731.27 18474 2578.7 733 42 I845.7 2579.1 735.55 I843.9 25794 T37.66 1842.1 2579.8 739.75 1840.4 2580.1 732.22 2039.4 27716 734.38 2037.7 2772.1 736.52 2036.1 27726 738.64 2034.4 27730 740.75 2032.8 2773.5 2.0710 4.5711 6.6421 2.0758 4.5623 6.6381 2.0806 4.5536 6.6342 2.0853 4.5450 6.6303 2.0900 4.5364 6.6264 172.96 LI181 173.46 1.1187 .85 33 69 36 69 41 69 173.94 1.193 174.43 1.1200 1.1206 .87 89 174.90 47 69 54 69 62 69 71 6 74283 2031.1 2773.9 2.0946 45280 6.6226 175 38 175 85 176 31 176.78 177 24 1.1237 215.0 212.7 210.5 208 4 741.83 1838.6 2580.3 743.89 1836.9 25808 744.91 2029.5 2774.4 2.0992 45196 6.6188 745.93 18352 2581.I 746.96 20279 2774.8 2.1038 4.5113 6.6151 747.95 1833.5 2581.5 749.96 18318 2581.8 L.1212 11218 .90 .91 .92 .93 94 1.1225 1.1231 749.00 2026.3 27753 2.1083 4.5031 6.6114 751.02 2024.7 2775.7 2.1127 4.4950 6,6077 81 6 206.3 251 95 J810.2 751.95 1830.2 2582.1 753.93 1828.5 25824 753.02 2023.1 2776.1 2.1172 4.4869 6.6041 755.01 202LS 2776.5 2.1215 4.4789 6 6005 93 6 18 6 48 6 8I 6 18 6 .95 .96 .97 .98 99 177 69 178.14 178 59 179.03 179 47 11243 1.1249 1.1255 L1261 2042 202.2 200 2 755.89 1826.9 2582,7 756.98 2019.9 2776.9 2.1259 4.4710 6 5969 757.84 1825.2 2583.1 758.94 2018.4 2777.3 2.1302 4.4632 6.5934 1.1261 11267 198 2 257.84 I825.2 2583.1 1963 759.77 1823.6 2583.4 760.88 2016.8 2777.7 2.1345 4,4555 6.5899 762.81 20153 2778.1 2.1387 4.4478 6.5865 179.91 180.77 181.62 182.46 183.28 L.1273 1.1284 1.1296 L1308 761.68 1822.0 2583.6 765.47 1818.8 2584 2 766 63 2012.2 2778.9 169.21 1815.6 25848 772.89 1812.5 2585.4 776.52 1809.4 2585.9 194 44 59 689 02 6 BA 49 680 98 61M 51 6120 1.00 1.02 1.04 1.96 1.08 190 80 187 30 183.92 180.67 770.38 2009 2 2779.6 2.1553 44177 6.5729 774.08 2006.2 2780.3 2.1634 4.4030 6.5664 777.74 2003.3 2781.0 2.1713 4.3886 6.5599 L.1319 2.1792 4.3744 6.5536 784.89 1997.5 2782.4 2.1869 4.3605 6.5473 787.11 1800 3 25874 788 40 1994.6 2783.0 2.1945 4.3467 6.5412 2.2020 4.3332 6.5351 2.2093 4.31I99 6.5292 761.34 2000.4 2781.7 1.10 184.09 L12 2 184.89 1.14 185.68 186,46 1.16 1.18 187.23 17753 780.09 1806.3 2586.4 L1330 L.1342 174 49 L.1353 171 56 1,1364 168.73 165 99 06 68 64 681 I 24 68 K7 6 52 6 790.54 1797.4 2587.9 793.94 1794 4 2588.4 791.86 1991LS 2783.6 795.28 1989.0 2784.2 LI375 797.29 17915 2588.8 798.6S 1986.2 2784.8 801.98 1983.4 2785.4 805.28 1980.7 2786.0 NOR 53 19780 2786.5 810.29 1780.3 2590.6 811.75 1975.3 2787.1 2.2166 4.3067 6.5233 2.2238 4.2938 6.5176 2.2309 4.2810 6.5119 2.2378 4.2685 6.5063 2.2447 4.2561 6.5008 187.99 LI385 163 33 188.74 1.1396 160.77 20 6.76 89 6. SI 6.7 s 67 I 6M 1.20 1.22 1.24 189.48 1.26 1.28 800 60 1788.7 2589.3 158 28 803 87 1785.9 2589.7 190.20 1.1417 155 86 807.09 1783.0 2590.1 190.93 1.1428 153.53 191.64 L.1438 151.25 192.34 1.1449 149.05 1.34 193.04 1.1459 146.91 193.72 1.1469 194.40 L.1479 813 44 1777.5 2591.0 814.93 1972.7 2787.6 2.2515 4.2438 6.4953 816.56 1774.8 25914 818.07 1970.0 2788.1 2.2582 4.2318 6.4900 819.64 1772.1 2591.7 821.18 1967.4 2788.6 2.2648 4.2199 6.4847 824.25 1964.8 2789.1 2.2714 4.2081 6.4795 2.2778 4.1965 6.4743 1.30 144.83 822.69 1769.4 2592.1 136 138 1 825.71 1766.8 2592.5 827,29 1962.3 2789.6 19 6. 6. 142.81 140.84 828.70 1764.1 2592.8 1.40 1.42 1.44 1.46 1.48 195.07 195.74 1.1499 138.93 831.65 1761.5 2593.2 196.39 197.04 197.69 L1529 830.30 1959.7 2790.0 833.28 1957.2 2790.5 836.23 1954.7 2790.9 839.14 1952.2 2791.3 842.03 1949.7 2791.7 2.2842 4.1850 6.4693 2.2905 4.1737 6.4643 2.2968 4.1625 6.4593 2.3029 4.1515 6.4544 2.3090 4.1406 6.4496 1.1489 1.1509 137.07 834.57 1759.0 2593.5 LIS19 135.25 133.49 840.33 1753.9 2594.2 837.46 1756.4 2593.9 6.
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Russell C. Hibbeler
Publisher:
PEARSON
Thermodynamics: An Engineering Approach
Thermodynamics: An Engineering Approach
Mechanical Engineering
ISBN:
9781259822674
Author:
Yunus A. Cengel Dr., Michael A. Boles
Publisher:
McGraw-Hill Education
Control Systems Engineering
Control Systems Engineering
Mechanical Engineering
ISBN:
9781118170519
Author:
Norman S. Nise
Publisher:
WILEY
Mechanics of Materials (MindTap Course List)
Mechanics of Materials (MindTap Course List)
Mechanical Engineering
ISBN:
9781337093347
Author:
Barry J. Goodno, James M. Gere
Publisher:
Cengage Learning
Engineering Mechanics: Statics
Engineering Mechanics: Statics
Mechanical Engineering
ISBN:
9781118807330
Author:
James L. Meriam, L. G. Kraige, J. N. Bolton
Publisher:
WILEY