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 Specific Heat Thermal Conductivity k, Wim - K Volume Expansion Prandtl Enthalpy Density Dynamic Viscosity Number Saturation of Coefficient P. kg/m Liquid G. Mkg - K P. kg/m -s Vapor Pr Temp. T, "C A, 1/K Liquid Pressure Vaporization Pa. kPa Vapor h kikg Liquid Vapor Liquid Vapor Liquid Liquid Vapor 1.792 x 103 0.922 x 10- 0.934 x 10- 0.946 x 10 0.959 x 10- 0.973 x 10-5 1.00 -0.068 x 10-3 0.015 x 10 3 0.733 x 103 0.138 x 10 3 0.01 2501 2490 0.6113 999.8 0.0048 4217 1854 0.561 0.0171 13.5 1.519 x 10-3 1.307 x 10 3 11.2 9.45 8.09 7.01 0.8721 999.9 999.7 999.1 0.0068 0.0094 4205 1857 0.571 0.0173 1.00 1.00 10 1.2276 2478 4194 1862 0.580 0.0176 1.138 x 10-3 1.002 x 103 15 1.7051 2.339 0.0128 0.0173 2466 2454 4186 1863 1867 0.589 0.0179 1.00 1.00 20 998.0 4182 0.598 0.0182 0.195 x 10 3 0.987 x 10 1.001 x 10-5 1.016 x 10 1.031 x 10 5 1.046 x 10 0.0231 0.0304 1.00 1.00 0.247 x 10 3 0.294 x 10 3 0.337 x 10 3 0.377 x 10 3 0.415 x 103 25 3.169 997.0 2442 2431 4180 1870 0.607 0.0186 0.891 x 10 3 0.798 x 10-3 6.14 5.42 4.83 30 4.246 996.0 4178 1875 0.615 0.0189 0.720 x 10 3 0.653 x 10 3 0.596 x 103 35 5.628 994.0 992.1 990.1 0.0397 2419 4178 4179 4180 1880 0.623 0.631 0.637 0.0192 1.00 40 7.384 0.0512 2407 1885 0.0196 4.32 1.00 45 9.593 0.0655 2395 1892 0.0200 3.91 1.00 1.062 x 10 5 1.077 x 10-5 1.093 x 10-5 1.110 x 10 1.126 x 10-5 0.547 x 10-3 1.00 0.451 x 10 3 0.484 x 10 3 0.517 x 10 3 0.548 x 10 3 0.578 x 103 50 12.35 988.1 0.0831 2383 4181 1900 0.644 0.0204 3.55 0.504 x 10-3 0.467 x 10-3 0.433 x 103 0.404 x 10-3 55 15.76 985.2 0.1045 2371 4183 1908 0.649 0.0208 0.0212 0.0216 3.25 4185 4187 4190 1.00 1.00 1.00 1.00 60 19.94 983.3 0.1304 2359 1916 0.654 2.99 65 25.03 980.4 0.1614 2346 1926 0.659 2.75 2.55 70 31.19 977.5 0.1983 2334 1936 0.663 0.0221 0.607 x 10-3 0.653 x 10-3 0.670 x 10 3 0.702 x 10-3 0.716 x 10-3 0.378 x 10 1.142 x 10 1.159 x 10-5 1.176 x 10 1.193 x 10-5 1.210 x 10-5 75 38.58 974.7 0.2421 2321 4193 1948 0.667 0.0225 2.38 1.00 47.39 57.83 70.14 4197 4201 4206 4212 2.22 2.08 0.0230 0.0235 0.355 x 10-3 0.333 x 10-3 0.315 x 10-3 0.297 x 10-3 80 971.8 968.1 0.2935 2309 1962 0.670 1.00 85 0.3536 2296 1977 0.673 1.00 1.00 1.00 90 965.3 0.4235 2283 1993 0.675 0.0240 1.96 95 84.55 961.5 0.5045 2270 2010 0.677 0.0246 1.85
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 Specific Heat Thermal Conductivity k, Wim - K Volume Expansion Prandtl Enthalpy Density Dynamic Viscosity Number Saturation of Coefficient P. kg/m Liquid G. Mkg - K P. kg/m -s Vapor Pr Temp. T, "C A, 1/K Liquid Pressure Vaporization Pa. kPa Vapor h kikg Liquid Vapor Liquid Vapor Liquid Liquid Vapor 1.792 x 103 0.922 x 10- 0.934 x 10- 0.946 x 10 0.959 x 10- 0.973 x 10-5 1.00 -0.068 x 10-3 0.015 x 10 3 0.733 x 103 0.138 x 10 3 0.01 2501 2490 0.6113 999.8 0.0048 4217 1854 0.561 0.0171 13.5 1.519 x 10-3 1.307 x 10 3 11.2 9.45 8.09 7.01 0.8721 999.9 999.7 999.1 0.0068 0.0094 4205 1857 0.571 0.0173 1.00 1.00 10 1.2276 2478 4194 1862 0.580 0.0176 1.138 x 10-3 1.002 x 103 15 1.7051 2.339 0.0128 0.0173 2466 2454 4186 1863 1867 0.589 0.0179 1.00 1.00 20 998.0 4182 0.598 0.0182 0.195 x 10 3 0.987 x 10 1.001 x 10-5 1.016 x 10 1.031 x 10 5 1.046 x 10 0.0231 0.0304 1.00 1.00 0.247 x 10 3 0.294 x 10 3 0.337 x 10 3 0.377 x 10 3 0.415 x 103 25 3.169 997.0 2442 2431 4180 1870 0.607 0.0186 0.891 x 10 3 0.798 x 10-3 6.14 5.42 4.83 30 4.246 996.0 4178 1875 0.615 0.0189 0.720 x 10 3 0.653 x 10 3 0.596 x 103 35 5.628 994.0 992.1 990.1 0.0397 2419 4178 4179 4180 1880 0.623 0.631 0.637 0.0192 1.00 40 7.384 0.0512 2407 1885 0.0196 4.32 1.00 45 9.593 0.0655 2395 1892 0.0200 3.91 1.00 1.062 x 10 5 1.077 x 10-5 1.093 x 10-5 1.110 x 10 1.126 x 10-5 0.547 x 10-3 1.00 0.451 x 10 3 0.484 x 10 3 0.517 x 10 3 0.548 x 10 3 0.578 x 103 50 12.35 988.1 0.0831 2383 4181 1900 0.644 0.0204 3.55 0.504 x 10-3 0.467 x 10-3 0.433 x 103 0.404 x 10-3 55 15.76 985.2 0.1045 2371 4183 1908 0.649 0.0208 0.0212 0.0216 3.25 4185 4187 4190 1.00 1.00 1.00 1.00 60 19.94 983.3 0.1304 2359 1916 0.654 2.99 65 25.03 980.4 0.1614 2346 1926 0.659 2.75 2.55 70 31.19 977.5 0.1983 2334 1936 0.663 0.0221 0.607 x 10-3 0.653 x 10-3 0.670 x 10 3 0.702 x 10-3 0.716 x 10-3 0.378 x 10 1.142 x 10 1.159 x 10-5 1.176 x 10 1.193 x 10-5 1.210 x 10-5 75 38.58 974.7 0.2421 2321 4193 1948 0.667 0.0225 2.38 1.00 47.39 57.83 70.14 4197 4201 4206 4212 2.22 2.08 0.0230 0.0235 0.355 x 10-3 0.333 x 10-3 0.315 x 10-3 0.297 x 10-3 80 971.8 968.1 0.2935 2309 1962 0.670 1.00 85 0.3536 2296 1977 0.673 1.00 1.00 1.00 90 965.3 0.4235 2283 1993 0.675 0.0240 1.96 95 84.55 961.5 0.5045 2270 2010 0.677 0.0246 1.85
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
Related questions
Question
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.
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
Specific
Heat
Thermal
Conductivity
k, Wim - K
Volume
Expansion
Prandtl
Enthalpy
Density
Dynamic Viscosity
Number
Saturation
of
Coefficient
P. kg/m
Liquid
G. Mkg - K
P. kg/m -s
Vapor
Pr
Temp.
T, "C
A, 1/K
Liquid
Pressure
Vaporization
Pa. kPa
Vapor
h kikg
Liquid
Vapor
Liquid
Vapor
Liquid
Liquid Vapor
1.792 x 103 0.922 x 10-
0.934 x 10-
0.946 x 10
0.959 x 10-
0.973 x 10-5
1.00 -0.068 x 10-3
0.015 x 10 3
0.733 x 103
0.138 x 10 3
0.01
2501
2490
0.6113
999.8
0.0048
4217
1854
0.561
0.0171
13.5
1.519 x 10-3
1.307 x 10 3
11.2
9.45
8.09
7.01
0.8721
999.9
999.7
999.1
0.0068
0.0094
4205
1857
0.571
0.0173
1.00
1.00
10
1.2276
2478
4194
1862
0.580
0.0176
1.138 x 10-3
1.002 x 103
15
1.7051
2.339
0.0128
0.0173
2466
2454
4186
1863
1867
0.589
0.0179
1.00
1.00
20
998.0
4182
0.598
0.0182
0.195 x 10 3
0.987 x 10
1.001 x 10-5
1.016 x 10
1.031 x 10 5
1.046 x 10
0.0231
0.0304
1.00
1.00
0.247 x 10 3
0.294 x 10 3
0.337 x 10 3
0.377 x 10 3
0.415 x 103
25
3.169
997.0
2442
2431
4180
1870
0.607
0.0186
0.891 x 10 3
0.798 x 10-3
6.14
5.42
4.83
30
4.246
996.0
4178
1875
0.615
0.0189
0.720 x 10 3
0.653 x 10 3
0.596 x 103
35
5.628
994.0
992.1
990.1
0.0397
2419
4178
4179
4180
1880
0.623
0.631
0.637
0.0192
1.00
40
7.384
0.0512
2407
1885
0.0196
4.32
1.00
45
9.593
0.0655
2395
1892
0.0200
3.91
1.00
1.062 x 10 5
1.077 x 10-5
1.093 x 10-5
1.110 x 10
1.126 x 10-5
0.547 x 10-3
1.00
0.451 x 10 3
0.484 x 10 3
0.517 x 10 3
0.548 x 10 3
0.578 x 103
50
12.35
988.1
0.0831
2383
4181
1900
0.644
0.0204
3.55
0.504 x 10-3
0.467 x 10-3
0.433 x 103
0.404 x 10-3
55
15.76
985.2
0.1045
2371
4183
1908
0.649
0.0208
0.0212
0.0216
3.25
4185
4187
4190
1.00
1.00
1.00
1.00
60
19.94
983.3
0.1304
2359
1916
0.654
2.99
65
25.03
980.4
0.1614
2346
1926
0.659
2.75
2.55
70
31.19
977.5
0.1983
2334
1936
0.663
0.0221
0.607 x 10-3
0.653 x 10-3
0.670 x 10 3
0.702 x 10-3
0.716 x 10-3
0.378 x 10
1.142 x 10
1.159 x 10-5
1.176 x 10
1.193 x 10-5
1.210 x 10-5
75
38.58
974.7
0.2421
2321
4193
1948
0.667
0.0225
2.38
1.00
47.39
57.83
70.14
4197
4201
4206
4212
2.22
2.08
0.0230
0.0235
0.355 x 10-3
0.333 x 10-3
0.315 x 10-3
0.297 x 10-3
80
971.8
968.1
0.2935
2309
1962
0.670
1.00
85
0.3536
2296
1977
0.673
1.00
1.00
1.00
90
965.3
0.4235
2283
1993
0.675
0.0240
1.96
95
84.55
961.5
0.5045
2270
2010
0.677
0.0246
1.85
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 2 steps with 3 images
Recommended textbooks for you
Elements Of Electromagnetics
Mechanical Engineering
ISBN:
9780190698614
Author:
Sadiku, Matthew N. O.
Publisher:
Oxford University Press
Mechanics of Materials (10th Edition)
Mechanical Engineering
ISBN:
9780134319650
Author:
Russell C. Hibbeler
Publisher:
PEARSON
Thermodynamics: An Engineering Approach
Mechanical Engineering
ISBN:
9781259822674
Author:
Yunus A. Cengel Dr., Michael A. Boles
Publisher:
McGraw-Hill Education
Elements Of Electromagnetics
Mechanical Engineering
ISBN:
9780190698614
Author:
Sadiku, Matthew N. O.
Publisher:
Oxford University Press
Mechanics of Materials (10th Edition)
Mechanical Engineering
ISBN:
9780134319650
Author:
Russell C. Hibbeler
Publisher:
PEARSON
Thermodynamics: An Engineering Approach
Mechanical Engineering
ISBN:
9781259822674
Author:
Yunus A. Cengel Dr., Michael A. Boles
Publisher:
McGraw-Hill Education
Control Systems Engineering
Mechanical Engineering
ISBN:
9781118170519
Author:
Norman S. Nise
Publisher:
WILEY
Mechanics of Materials (MindTap Course List)
Mechanical Engineering
ISBN:
9781337093347
Author:
Barry J. Goodno, James M. Gere
Publisher:
Cengage Learning
Engineering Mechanics: Statics
Mechanical Engineering
ISBN:
9781118807330
Author:
James L. Meriam, L. G. Kraige, J. N. Bolton
Publisher:
WILEY