The flow rate is simply the volume moved in a specific time; divide the volume by the time.
The purpose of a flow meter is to measure the flow of either air or water. They allow one to measure the total volume of air or liquid flow and the rate of the flow.
5 imperial gallons per minute
1000x20/720 = 28 gtts/min
pi*radius squared*velocity
The mass of water used in the first six minutes depends on the rate of flow of water. If we know the flow rate, we can calculate the mass using the formula: Mass = flow rate x time.
To calculate the flow rate in liters per minute, first convert 25 seconds to minutes by dividing by 60 (25 seconds / 60 = 0.4167 minutes). Then, divide the volume (4 liters) by the time in minutes (0.4167 minutes) to get the flow rate: 4 liters / 0.4167 minutes ≈ 9.6 liters per minute.
Well, darling, the turnover rate of that 3500 gallon commercial spa with a flow rate of 150 gpm is approximately 23.33 minutes. So, if you're looking to freshen up that water real quick, just give it about 23 minutes and 20 seconds, and you'll be good to go. Just don't forget to bring your rubber ducky for company!
Spoilers are intended to reduce lift by spoiling smooth air flow over the top of a wing. This is to give a faster rate of descent safely.
30ml/hr
570 gallons in 60 minutes would be equal to a flow rate of 9.5 gallons per minute.
As the rate of flow decreases, the rate of deposition increases
Flow rate of 500mL over 4 hours = 500mL/4h = 125mL/h
Give me the rate of pay and I'll tell you.
No, the distance over time formula is for calculating speed or velocity. Flow rate is typically calculated as volume of fluid passing through a given point per unit of time.
A weir gauge is typically used to measure the flow rate of water in open channels such as rivers or streams. It works by allowing water to flow over a weir structure, and the height of the water level above the weir can be used to calculate the flow rate using established equations.
The surface material of a fluid can impact its flow rate by affecting the level of friction between the fluid and the boundary. A rough surface can increase friction, reducing flow rate, while a smooth surface can decrease friction, allowing for a higher flow rate. Additionally, the surface material can also influence the formation of boundary layers and turbulent flow, further impacting flow rate.