It would depend on the density of the fluid.
N * 0.453592 / D
N is the value of pounds per minute.
0.453592 is the number of pounds in a kilogram.
D is the fluid density in kilograms per liter. For water, this would be 1.
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.
Pounds per cubic foot of volume and used to weight the two do not compare.
Standard Liter per minute (SLPM) refers to the flow rate of a gas at "standard conditions" (usually sea level pressure, room temperature..etc) Liter per minute (LPM) is the flow rate at the conditions being measured. This is an important distinction when measuring compressed gasses. One liter of compressed gas will expand to a higher volume at standard conditions.
liters per minute
Voltage
To calculate the psi from a given flow rate, you can use the formula: psi (flow rate in gallons per minute) / 2.31. This formula helps you convert the flow rate into pressure in pounds per square inch (psi).
The reading you got of 6 litres per minute on air with a water flow controller cannot really be converted because the properties of the measured things are completely different the flow controller is used to measuring a hydraulic medium instead of a compressible one for example.
Pascals are a unit of pressure (force per unit area). Liters per minute is a unit of flow rate (volume per unit time).
A cubic foot per minute is a measure of flow whereas a litre is a measure of volume. The two measure different things and so there is no conversion between the two without additional information.
An 8-minute shower typically uses between 60 to 80 liters of water, depending on the flow rate of the showerhead. Standard showerheads have a flow rate of about 9 to 12 liters per minute. By using a low-flow showerhead, water consumption can be reduced significantly, potentially lowering the total to around 48 to 64 liters for the same duration.
The duration a size H cylinder of heliox will last depends on the flow rate it is used at. For example, if the flow rate is 4 liters per minute, a size H cylinder typically lasts around 4.5 hours. You can calculate the estimated duration by dividing the cylinder's capacity (in liters) by the flow rate (in liters per minute).
A cubic meter is a unit of volume, specifically 1,000 litres.Litres per minute is a unit of flow.Units of volume and units of flow do not correlate without some factor of time. The question is invalid. Please restate the question.