60 D2 D1 The last 40 ° C until the water vapor pressure in the tube shown in Figure 0.75 t/m 2 d. Be that atmospheric pressure in the high curent 68 cm-Hg-column, one section of diameter D,= 60 cm. the second section of diameter D, = 14 cm, the first pressure value in the section P= 0.35 kg / cm 2 by that the cavitation neglecting the energy losses Determine the flow rate to start. Note: Use a period (.) as a decimal separator in your answers. Otherwise, even if your result is correct, it will be considered incorrect by the system. Q= m /sec
60 D2 D1 The last 40 ° C until the water vapor pressure in the tube shown in Figure 0.75 t/m 2 d. Be that atmospheric pressure in the high curent 68 cm-Hg-column, one section of diameter D,= 60 cm. the second section of diameter D, = 14 cm, the first pressure value in the section P= 0.35 kg / cm 2 by that the cavitation neglecting the energy losses Determine the flow rate to start. Note: Use a period (.) as a decimal separator in your answers. Otherwise, even if your result is correct, it will be considered incorrect by the system. Q= m /sec
Chapter2: The Kinetic Theory Of Gases
Section: Chapter Questions
Problem 41P: What is the ratio of the average translational kinetic energy of a nitrogen molecule at a...
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