1.Based on the water phase diagram below, which of the 2.)A piping system has water operating at 50 °C. Which of the statements below is FALSE: statements below is true for the system to avoid cavitation OK sOoK 100k 15O K 200k 250K 00K 50K 400K 450K so0K 50K 600 K bubbles? 1 TPa X[ hexagonal) Saturation (or vapor) pressure of water at various temperatures 100 GP 100 K 62 GPa VIII 10 GPa VII V 278 K 21 GP Saturation Temperature T, °C 355.00 K 2.216 GPa Pressure 1 GP XV 210 K 620 MPa 299K 6324 MPa 248.85.K 344,3 MP 56.164 K 350.1 MPa 2385K 2125 MP 51 165 K 209 9 MPa Pat, kPa -10 -5 0.260 0.403 0.611 0.872 1.23 1.71 2.34 3.17 4.25 7.38 12.35 101.3 (1 atm) 475.8 1554 100 MPa Solid Critical polr Liquid 47 K, 22.064 10 MPa 5 10 15 XI Ih 20 25 30 40 100 kPa rhombic (ortho- Freezing point at 1 atm 273.1s k, 101.325 kPa Boiling point at 1 atm 373.15 K 101.325 P 10 Pa 50 100 150 200 250 300 Solid/Liquid/Vapour triple point 273.16 K, 611.73 Pa 100 Pa Vapour 10 Pa 3973 8581 1Pa 250 °C 200 C 450C 100 C s0°C 50°c 100C 150c 200 "c 250 "c 300°c 5 O Pressure equal to or less than 12.35 kPa A system operating at 100 kPa at 50 degC will not have cavitation O Maintain pressure at 12.35 kPa O Pressure less than 12.35 kPa A system operating at 100 degC at 1 MPa will not have cavitation Pressure greater than or equal to 12.35 kPa O Pressure greater than 12.35 kPa A system operating at 1 MPa at 200 degC will not have cavitation A system operating at 10 MPa at 200 degC will not have cavitation
1.Based on the water phase diagram below, which of the 2.)A piping system has water operating at 50 °C. Which of the statements below is FALSE: statements below is true for the system to avoid cavitation OK sOoK 100k 15O K 200k 250K 00K 50K 400K 450K so0K 50K 600 K bubbles? 1 TPa X[ hexagonal) Saturation (or vapor) pressure of water at various temperatures 100 GP 100 K 62 GPa VIII 10 GPa VII V 278 K 21 GP Saturation Temperature T, °C 355.00 K 2.216 GPa Pressure 1 GP XV 210 K 620 MPa 299K 6324 MPa 248.85.K 344,3 MP 56.164 K 350.1 MPa 2385K 2125 MP 51 165 K 209 9 MPa Pat, kPa -10 -5 0.260 0.403 0.611 0.872 1.23 1.71 2.34 3.17 4.25 7.38 12.35 101.3 (1 atm) 475.8 1554 100 MPa Solid Critical polr Liquid 47 K, 22.064 10 MPa 5 10 15 XI Ih 20 25 30 40 100 kPa rhombic (ortho- Freezing point at 1 atm 273.1s k, 101.325 kPa Boiling point at 1 atm 373.15 K 101.325 P 10 Pa 50 100 150 200 250 300 Solid/Liquid/Vapour triple point 273.16 K, 611.73 Pa 100 Pa Vapour 10 Pa 3973 8581 1Pa 250 °C 200 C 450C 100 C s0°C 50°c 100C 150c 200 "c 250 "c 300°c 5 O Pressure equal to or less than 12.35 kPa A system operating at 100 kPa at 50 degC will not have cavitation O Maintain pressure at 12.35 kPa O Pressure less than 12.35 kPa A system operating at 100 degC at 1 MPa will not have cavitation Pressure greater than or equal to 12.35 kPa O Pressure greater than 12.35 kPa A system operating at 1 MPa at 200 degC will not have cavitation A system operating at 10 MPa at 200 degC will not have cavitation
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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