An undisclosed fluid has a specific weight of 111.9 kN/m3 when the temperature is 17.3C. Determine...
The weight density of a fluid is determined to be 9683 N/m3. Determine the relative density of this fluid. Report your answer to three decimal places.
QUESTION 16 ifa fluid has a specific gravity of 8. then its density is equal to (kg/m3): QUESTION 17 A block of material of unknown volume is submerged in water and found to weigh 457 N (in water). The same block weighs 921 N in air. Determine the specific weight of the material in kN/m3. ou
A soil sample has a gravity density of 22 kN / m3 and a water content of 10%. What is the dry gravity density of the sample? If the dry density, wet density and grain density of a soil sample are 1.6 g / cm3, 1.84 g / cm3 and 2.56 g / cm3, respectively, what will be the porosity of the sample?
What is the specific weight(lbf/gal) for a fluid with SG of 0.826? Assume a temperature of 39.2F and gravity to be 32.2 ft/s^2.
4. (21 pts.) A liquid with a specific volume of 0.0011 m'/kg and a molecular weight of 65 g/mole flows through a 6-inch by 6-inch square pipe. A bucket placed at the exit of the pipe collects 100 moles of the liquid every two minutes. Calculate the following process variables (4 pts.) fluid density in g/cm3 b. (5 pts.) mass flow rate in kg/h (kilograms per hour) а. g (6 pts.) mass flux (flow rate per area) in m2-s C....
The bulk unit weight of a dry soil with void ratio 0.63 is 16.5 kN/m3. Its Specific gravity is most likely a) 2.52 b) 2.63 c) 2.74 d) 1.92
The Reinforced concrete cantilever retaining wall has a cohesionless backfill soil with unit weight of 17 kN/m3 (above GWT) and 20 kN/m (saturatec). The resisting moment about the toe, due to the weight of the backfill soil, is 10 kN/m2 100kN 0.4m 2.6 m 3.9m GWT 2.7 m 0.4m concrete 23.5 kN/m3 4.0m The Reinforced concrete cantilever retaining wall has a cohesionless backfill soil with unit weight of 17 kN/m3 (above GWT) and 20 kN/m (saturatec). The resisting moment about...
For water, determine the value of specific volume in BOTH cm3/g and m3/kg at x= 0.62 and 40 kPa:
A standard after-surgery intravenous fluid has a density of 1125 kg/m3. If during the first three hours after surgery a patient is to receive a volume of 1.02 10-3 m3 of this fluid, determine the mass flow rate in kg/s.
The working fluid in a Pitot tube has specific gravity 4.4. If the difference in fluid heights on the two sides of the tube is 10 cm, determine the speed of the airflow. The density of the air is 1.25 kg/m^3.