4 liters per 25 seconds = 9.6 liters/minute
i m3 is 1000L.so at 2 litres per second flow rate it would take = 300 * 1000/2 =150000 seconds = 41.66 hours
Water flow regards the quantity of this fluid medium per a unit of time. In SI units it would be liters per second (lps), and in American it is commonly measured in gallons per minute (gpm).
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.
Not in any sensible way. RPM is a measure of (angular) velocity whereas litres per minute is a rate of flow. Your hard disk will have an rpm but what does litres per miute mean in terms of the disk?
The normal venous return of blood flow refers to the amount of blood that is returned to the heart from the veins per unit of time. In a resting individual, the average venous return is approximately 5 liters of blood per minute. This value can fluctuate depending on factors such as physical activity or medical conditions.
This question is not specific enough to answer. If we knew which type of flow rate you were speaking of we could answer this. For example there is a volumetric flow rate which is the volume of fluid that passes through any given surface per unit time.
liters per minute
Voltage
Can't say because this depends on the flow coming out of the shower head. If the flow is 1ltr per minute then in 10 minutes you will use 10 litres The average shower in the US flows at a rate of 7.9 liters per minute, or 2.1 gallons per minute. A ten minute shower would consume 79 liters or 21 gallons of water.
i m3 is 1000L.so at 2 litres per second flow rate it would take = 300 * 1000/2 =150000 seconds = 41.66 hours
Gallons per minute is the amount of gallons used or moved or saved for every minute of time that passes. If you wanted to calculate how many gallons were pumped through a water fountain every minute, you would measure this and divide the gallons by the minutes and get your "gallons per minute".
Human lungs are 2 liters in volume by average. So... Average breath rate is 12 breaths per minute. In one minute the patient would take in 24 liters of air. You are supplying 2 liters of pure oxygen + 4.8 liters from air (20% of the 24 liters (Percent oxygen in dry air)) = 6.8 liters of Oxygen per minute. 6.8 liters oxygen / 24 liters intake = 28.3% Oxygen or you can look at the table given by the books at http://www.fpnotebook.com/ER/Procedure/LwFlwOxygn.htm Nasal Cannula, Flow 0 liters per minute: 21% (Room Air), Flow 2 liters per minute: 29% But I like the mathematical method. That's just me!
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.
10 - 15 liters per minute
Water flow regards the quantity of this fluid medium per a unit of time. In SI units it would be liters per second (lps), and in American it is commonly measured in gallons per minute (gpm).
It depends on the flow rate which, in turn, will depend on the pressure.
About 5 liters (quarts) per minute at rest, up to 15 during exercise.