Water at 50°C and 1 atm pressure is heated to 100°C at constant pressure. Using coefficient of volume expansion data, determine the change in the density of water.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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Water at 50°C and 1 atm pressure is heated to 100°C at constant pressure. Using coefficient of volume
expansion data, determine the change in the density of water.
(Just write the numerical answer. Include - if the answer is negative. No need to put the unit.)
Properties of saturated water
Volume
Specific
Thermal
Prandti
Enthalpy
Expansion
Number
Density
P. kgima
Conductivity
k, Wim - K
Dynamic Viscosity
H. kgfm -s
Heat
Saturation
of
Coefficient
G Jkg - K
Pr
8, 1/K
Liquid
Pressure
Temp.
T. "C
Vaporization
hng, kkg
Pat, kPa
Liquid
Vapor
Liquid
Vapor
Liquid
Vapor
Liquid
Vapor
Liquid Vapor
1854
1857
1862
0.561
0.571
0.580
1.792 x 10-3
1.519 x 10-3
0.0176 1.307 x 10-3
1.138 x 10-3
0.0182 1.002 x 10-3 0.973 x 10-5
1.00 -0.068 x 10-3
0.015 x 10
0.733 x 10-
0.138 x 10 3
0.195 x 10 3
4217
0.0171
0.922 x 10 5
0.934 x 10-5
0.946 x 10
0.959 x 10
0.01
0.6113 999.8
999.9
0.8721
1.2276 999.7
0.0048
2501
2490
13.5
0.0068
4205
0.0173
11.2
1.00
10
0.0094
2478
4194
9.45
1.00
0.0128
0.0173
2466
2454
8.09
7.01
15
1.7051 999.1
4186
1863
0.589
0.0179
1.00
20
2.339
998.0
4182
1867
0.598
1.00
1870
1875
0.0231
0.0304
0.0397
0.0512
0.0655
0.0186 0.891 x 10-3 0.987 x 10-5
1.001 x 105
0.0192 0.720 x 10-3 1.016 x 10-5
1.031 x 10 5
1.046 x 10-5
0.247 x 10 3
0.294 x 10 3
25
3.169
997.0
2442
2431
4180
0.607
6.14
1.00
30
4.246
996.0
4178
0.615
0.0189
0.798 x 10 3
5.42
1.00
35
40
994.0
992.1
2419
2407
2395
0.623
0.631
0.337 x 10 3
0.377 x 10 3
0.415 x 10 3
5.628
4178
1880
4.83
1.00
0.0196 0.653 x 10-3
0.596 x 10-3
7.384
4179
1885
4.32
1.00
45
9.593
990.1
4180
1892
0.637
0.0200
3.91
1.00
0.0831
0.1045
0.1304
0.1614
0.547 x 10-3 1.062 x 10-5
0.504 x 10-
0.467 x 10-3 1.093 x 10 5
0.433 x 10-3 1.110 x 10-5
0.404 x 10 3
0.451 x 10
0.484 x 10-3
0.517 x 10 3
0.548 x 10 3
0.578 x 10 3
50
12.35
988.1
2383
4181
1900
0.644
0.0204
3.55
1.00
55
15.76
985.2
2371
4183
1.077 x 10-5
1908
1916
1926
1936
0.649
0.654
0.659
0.663
0.0208
3.25
1.00
60
65
2359
2346
2334
19.94
983.3
4185
4187
2.99
2.75
1.00
1.00
25.03
980.4
977.5
0.0216
70
31.19
0.1983
4190
0.0221
1.126 x 10-5
2.55
1.00
0.378 x 10 3
0.355 x 10 3
0.333 x 10-3 1.176 x 10-5
0.315 x 10-3 1.193 x 10 5
1.142 x 10-5
1.159 x 10 5
0.607 x 10
0.653 x 10 3
0.670 x 10-3
0.702 x 10-
0.716 x 10-
75
38.58
2321
974.7
971.8
0.2421
0.2935
4193
1948
0.667
0.0225
0.0230
0.0235
2.38
1.00
80
47.39
2309
2296
2283
2270
4197
1962 0.670
1977
0.673
1993
0.675
0.677
2010
2.22
1.00
1.00
1.00
85
57.83
70.14
968.1
0.3536
4201
2.08
90
965.3
0.4235
4206
0.0240
1.96
95
84.55
961.5
0.5045
4212
0.0246
0.297 x 10-3
1.210 x 10-5
1.85
1.00
Transcribed Image Text:Water at 50°C and 1 atm pressure is heated to 100°C at constant pressure. Using coefficient of volume expansion data, determine the change in the density of water. (Just write the numerical answer. Include - if the answer is negative. No need to put the unit.) Properties of saturated water Volume Specific Thermal Prandti Enthalpy Expansion Number Density P. kgima Conductivity k, Wim - K Dynamic Viscosity H. kgfm -s Heat Saturation of Coefficient G Jkg - K Pr 8, 1/K Liquid Pressure Temp. T. "C Vaporization hng, kkg Pat, kPa Liquid Vapor Liquid Vapor Liquid Vapor Liquid Vapor Liquid Vapor 1854 1857 1862 0.561 0.571 0.580 1.792 x 10-3 1.519 x 10-3 0.0176 1.307 x 10-3 1.138 x 10-3 0.0182 1.002 x 10-3 0.973 x 10-5 1.00 -0.068 x 10-3 0.015 x 10 0.733 x 10- 0.138 x 10 3 0.195 x 10 3 4217 0.0171 0.922 x 10 5 0.934 x 10-5 0.946 x 10 0.959 x 10 0.01 0.6113 999.8 999.9 0.8721 1.2276 999.7 0.0048 2501 2490 13.5 0.0068 4205 0.0173 11.2 1.00 10 0.0094 2478 4194 9.45 1.00 0.0128 0.0173 2466 2454 8.09 7.01 15 1.7051 999.1 4186 1863 0.589 0.0179 1.00 20 2.339 998.0 4182 1867 0.598 1.00 1870 1875 0.0231 0.0304 0.0397 0.0512 0.0655 0.0186 0.891 x 10-3 0.987 x 10-5 1.001 x 105 0.0192 0.720 x 10-3 1.016 x 10-5 1.031 x 10 5 1.046 x 10-5 0.247 x 10 3 0.294 x 10 3 25 3.169 997.0 2442 2431 4180 0.607 6.14 1.00 30 4.246 996.0 4178 0.615 0.0189 0.798 x 10 3 5.42 1.00 35 40 994.0 992.1 2419 2407 2395 0.623 0.631 0.337 x 10 3 0.377 x 10 3 0.415 x 10 3 5.628 4178 1880 4.83 1.00 0.0196 0.653 x 10-3 0.596 x 10-3 7.384 4179 1885 4.32 1.00 45 9.593 990.1 4180 1892 0.637 0.0200 3.91 1.00 0.0831 0.1045 0.1304 0.1614 0.547 x 10-3 1.062 x 10-5 0.504 x 10- 0.467 x 10-3 1.093 x 10 5 0.433 x 10-3 1.110 x 10-5 0.404 x 10 3 0.451 x 10 0.484 x 10-3 0.517 x 10 3 0.548 x 10 3 0.578 x 10 3 50 12.35 988.1 2383 4181 1900 0.644 0.0204 3.55 1.00 55 15.76 985.2 2371 4183 1.077 x 10-5 1908 1916 1926 1936 0.649 0.654 0.659 0.663 0.0208 3.25 1.00 60 65 2359 2346 2334 19.94 983.3 4185 4187 2.99 2.75 1.00 1.00 25.03 980.4 977.5 0.0216 70 31.19 0.1983 4190 0.0221 1.126 x 10-5 2.55 1.00 0.378 x 10 3 0.355 x 10 3 0.333 x 10-3 1.176 x 10-5 0.315 x 10-3 1.193 x 10 5 1.142 x 10-5 1.159 x 10 5 0.607 x 10 0.653 x 10 3 0.670 x 10-3 0.702 x 10- 0.716 x 10- 75 38.58 2321 974.7 971.8 0.2421 0.2935 4193 1948 0.667 0.0225 0.0230 0.0235 2.38 1.00 80 47.39 2309 2296 2283 2270 4197 1962 0.670 1977 0.673 1993 0.675 0.677 2010 2.22 1.00 1.00 1.00 85 57.83 70.14 968.1 0.3536 4201 2.08 90 965.3 0.4235 4206 0.0240 1.96 95 84.55 961.5 0.5045 4212 0.0246 0.297 x 10-3 1.210 x 10-5 1.85 1.00
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