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What is mass flow rate multiply volumetric flow rate?
Mass flow rate is the amount of mass passing through a given point per unit time, while volumetric flow rate is the volume of fluid passing through a given point per unit time. The mass flow rate is calculated by multiplying the volumetric flow rate by the fluid density at that point.
How can I find the pressure from a given flow rate?
To find the pressure from a given flow rate, you can use the formula: Pressure Flow Rate x Resistance. The resistance is typically provided in the system specifications or can be calculated based on the system's characteristics. By multiplying the flow rate by the resistance, you can determine the pressure in the system.
How can one determine the flow velocity in a fluid system?
One can determine the flow velocity in a fluid system by measuring the rate of flow and the cross-sectional area of the system. By dividing the flow rate by the cross-sectional area, the flow velocity can be calculated.
Why is the coefficient of discharge of a venturimeter calculated?
The coefficient of discharge of a venturi meter is calculated to account for any discrepancies between the theoretical flow rate and the actual flow rate. It helps in correcting for losses due to friction and other factors in the fluid flow, and ensures accurate measurement of the flow rate through the venturi meter.
What is the mass flow rate of gasoline from a pump?
The mass flow rate of gasoline from a pump depends on the pump's flow rate and the density of gasoline. It is typically measured in kilograms per second or pounds per hour. The mass flow rate can be calculated by multiplying the volumetric flow rate (in liters per minute or gallons per hour) by the density of gasoline (in kg/L or lb/gal).
Critical flow factor?
The critical flow factor is a dimensionless parameter used in fluid mechanics to determine the flow rate of a fluid through a section. It is calculated by dividing the actual flow rate by the theoretical maximum flow rate. The critical flow factor helps in understanding the conditions under which flow becomes critical in pipes and channels.
How do you calculate flow velocity in a fluid system?
Flow velocity in a fluid system can be calculated by dividing the flow rate of the fluid by the cross-sectional area of the pipe or channel through which the fluid is flowing. The formula for calculating flow velocity is: Velocity Flow Rate / Cross-sectional Area.
How do you calculate the steam flow rate?
The steam flow rate can be calculated by dividing the mass flow rate of the steam by the specific volume of the steam at the given conditions. This can be determined using steam tables or steam property calculators. The formula to calculate steam flow rate is: Flow rate (lb/h) = Mass flow rate (lb/h) / Specific volume (ft^3/lb)
Two pipes joined together?
When two pipes are joined together, their combined flow rate is the sum of their individual flow rates. This is based on the principle of conservation of mass where the total flow into a junction is equal to the total flow out. The resulting flow rate can be calculated using the formula Q = A1 * V1 + A2 * V2, where Q is the total flow rate, A is the cross-sectional area, and V is the velocity of flow for each pipe.
How do you calculate linear flow rate?
Linear flow rate can be calculated using the formula ( Q = A \cdot v ), where ( Q ) is the flow rate (volume per time), ( A ) is the cross-sectional area of the flow, and ( v ) is the average linear velocity of the fluid. To determine the flow rate, measure the cross-sectional area of the pipe or channel through which the fluid flows, and multiply it by the velocity of the fluid. Ensure that all units are consistent, typically using liters per second for flow rate, square meters for area, and meters per second for velocity.
What is average velocity of water in pipe?
The average velocity of water in a pipe depends on the flow rate of the water and the cross-sectional area of the pipe. It can be calculated by dividing the flow rate by the cross-sectional area. The units are typically expressed in meters per second.
How is a body of water's rate of flow related to its rate of deposition?
As the rate of flow decreases, the rate of deposition increases
