cubic feet per hour (cu ft/h of flow rate) is the same as 14 4/25 Liters per minute (L/min / flow rate).
ANSWERPUMP Iwater pumped in 20 min = 5000 Lwater pumped in 1 min = 5000 / 20 L = 250 LPUMP IIwater pumped in 25 min = 5000 Lwater pumped in 1 min = 5000 / 25 L = 200 Llet x be the time for which pump I works and let y be the amount of time for which pump II works.then250x + 200y = 50005x + 4y = 100
60 seconds
An ohm per square depends on the effective area of a sheet. Let us look at a sheet that is W um by L um. A square is a calculation which answers how many squares of size min(W,L) by min(W,L) are in an area. In other words how many squares are in an area defined by W and L is max(W or L) divided by min(W or L). The number of microns would require multiplication by at least 1 dimension.
min.
10:05 --> 10 * 60 min + 5 min = 605 min 08:20 --> 8 * 60 min + 20 min = 500 min 605 min - 500 min = 105 min (= 1 3/4 hr)
5.6 L/min. for a male...4.9 L/min for a female
50 l/min
60 seconds
ANSWERPUMP Iwater pumped in 20 min = 5000 Lwater pumped in 1 min = 5000 / 20 L = 250 LPUMP IIwater pumped in 25 min = 5000 Lwater pumped in 1 min = 5000 / 25 L = 200 Llet x be the time for which pump I works and let y be the amount of time for which pump II works.then250x + 200y = 50005x + 4y = 100
It equals 20% of cardiac output Cardiac Output = 5 L/min so renal blood flow is 1 L/min
85 L/min
Water flow is measured in liters per second in the SI system.
Formula: L/min x 0.00001667 = m3/s
The average minute ventilation for a person at rest is around 5-8 litres per minute (L/min) During exercise this increases to around 15-16 L/min.
The average minute ventilation in adults at rest is around 5-8 liters per minute. This value can increase during exercise or in situations where higher amounts of oxygen are required by the body. Minute ventilation is calculated by multiplying the tidal volume by the respiratory rate.
An ohm per square depends on the effective area of a sheet. Let us look at a sheet that is W um by L um. A square is a calculation which answers how many squares of size min(W,L) by min(W,L) are in an area. In other words how many squares are in an area defined by W and L is max(W or L) divided by min(W or L). The number of microns would require multiplication by at least 1 dimension.
Using the gas law: PV= NRT you can get this conclusion: P1V1/T2= P2V2/T1 To simplify you can do this operation: (NL/min)/(P+1) = L/min P: is your Operating Pressure