Fluid pressure is independent of the shape or size of the container. T/F
Fluid pressure is independent of the shape or size of the container. T/F
A container is filled with water and the pressure at the bottom of the container is P. Then the container is emptied halfway and topped off with oil of density 800 kg/m3, which floats on top of the water. What is the pressure at the bottom of the container now? A) A pressure > P B) The same pressure P C) A pressure < P D) This is not possible to answer with the information given 4. A camper heats...
Over narrow ranges of temperature (T) and pressure (P), the volume of a fluid may be expressed as V = C exp(?PT) exp(-?TP), where ?P denotes the isobaric thermal expansion coefficient of the fluid, ?T denotes the isothermal compressibility of the fluid, and C denotes a constant (independent of both P and T). Show that V, as expressed above, is a state function. Edit: It appears as though it's V = C^((?PT)(-?TP)).
A cylindrical container with a cross sectional area of 61.2 cm^2 holds a fluid of density 846 kg/m^3. At the bottom of the container the pressure is 126 kPa. (a) What is the depth of the fluid? (b) Find the pressure at the bottom of the container after an additional 2.05 X 10^-3 m^3 of this fluid is added to the container. Assume that no fluid spills out of the container.
A cylindrical container with a cross-sectional area of 60.2cm2 holds a fluid of density 786kg/m3 . At the bottom of the container the pressure is 119kPa . Assume Pat = 101 kPa. What is the depth of the fluid? Find the pressure at the bottom of the container after an additional 2.35
Azelastine hydrochloride is an antihistamine nasal spray. A standard size container holds one fluid ounce (oz.) of the liquid. You are searching for this medication in a European drugstore and are asked how many milliliters (mL) there are in one fluid ounce. Using the following conversion factors, determine the number of milliliters in a volume of 1.63 fluid ounces: 1 gallon (gal) = 128 oz., 3.785 x 10-3 cubic meters (m3) = 1 gal, 1 mL = 10-6 m3.
As sample size increases, the shape of t-distribution ______. is more similar in shape to the normal z-distribution. is flatter and more spread out than the normal z-distribution. is taller and narrower than the normal z-distribution. cannot be specified, making hypothesis tests impossible.
Problem 2: Fig. 2 shows a multi-fluid manometer used to measure the absolute pressure of the air container at A. What would be the reading L when the absolute pressure at A is 125 kPa? Mercury SG- 13.56, Oil SG 0.86. 01 Air 32 cm 18 em 35 15 cm Fig. 2 Water Mercury Problem 2: Fig. 2 shows a multi-fluid manometer used to measure the absolute pressure of the air container at A. What would be the reading L...
Q1. (5 points) Fluid fills the container shown in the figure. At which of the indicated points is the pressure greatest? 14 A) A B) B CC D D (E) The pressure is the same at each of the labeled points.
A closed container contains 1 lb of Refrigerant 22 at temperature 100°F and pressure of 65 lbf/in. The refrigerant is heated up until it reaches the temperature of 120°F. 1) Determine the pressure [lbf/in2] in the final state. (100 points) 2) Show the process schematically in a T-v and a p-v diagram with all the necessary features. (50 points) 3) Calculate the heat transfer [Btu] during the process. (150 points) 4 ) Calculate the work [Btu] if the refrigerant at...
3.) A thin-walled container with a hot fluid (T50 °C) is placed in a quiescent cold water bath (Thth10 °C). The interior and exterior sides of the container may be approximated as vertical plates, and the container's bottom is well insulated. Find the overall heat transfer coefficient, U, for this arrangement. You can assume the hot fluid has the same properties as water and that the container wall is at a temperature of 30 °C. (30 points) Thin-walled container Cold...