work with flow rate's values and properties. for conversion factors between unit pairs.ģ. ![]() in practicing cubic meters per second and cubic feet per second ( m3/sec vs. With the above mentioned two-units calculating service it provides, this flow rate converter proved to be useful also as a teaching tool:ġ. Second: cubic foot per second (cu ft/sec) is unit of flow rate.Ībbreviation, or prefix, for cubic meter per second is:Ībbreviation for cubic foot per second is:Ĭu ft/sec Other applications for this flow rate calculator. Converter type: flow rate unitsįirst unit: cubic meter per second (m3/sec) is used for measuring flow rate. Page with flow rate by mass unit pairs exchange. 1 ft³/s is equal to 0.03 m³/s Per second Cubic kilometers per second (km³/s) 2.83×10 -11 Cubic meters per second (m³/s) 0.03 Cubic decimeters per second (dm³/s) 28.32 Cubic centimetres per second (cm³/s) 28,316. For a whole set of multiple units for volume and mass flow on one page, try the Multi-Unit converter tool which has built in all flowing rate unit-variations. Type the number of Cubic feet per second (ft³/s) you want to convert in the text box, to see the results in the table. ![]() This unit-to-unit calculator is based on conversion for one pair of two flow rate units. m3/sec/cu ft/sec flow rate conversion resultĬonversion chart - cubic meters per second to cubic feet per secondġ cubic meter per second to cubic feet per second = 35.31 cu ft/secĢ cubic meters per second to cubic feet per second = 70.63 cu ft/secģ cubic meters per second to cubic feet per second = 105.94 cu ft/secĤ cubic meters per second to cubic feet per second = 141.26 cu ft/secĥ cubic meters per second to cubic feet per second = 176.57 cu ft/secĦ cubic meters per second to cubic feet per second = 211.89 cu ft/secħ cubic meters per second to cubic feet per second = 247.20 cu ft/secĨ cubic meters per second to cubic feet per second = 282.52 cu ft/secĩ cubic meters per second to cubic feet per second = 317.83 cu ft/secġ0 cubic meters per second to cubic feet per second = 353.15 cu ft/secġ1 cubic meters per second to cubic feet per second = 388.46 cu ft/secġ2 cubic meters per second to cubic feet per second = 423.78 cu ft/secġ3 cubic meters per second to cubic feet per second = 459.09 cu ft/secġ4 cubic meters per second to cubic feet per second = 494.41 cu ft/secġ5 cubic meters per second to cubic feet per second = 529.72 cu ft/secĬonvert flow rate of cubic meter per second (m3/sec) and cubic feet per second (cu ft/sec) units in reverse from cubic feet per second into cubic meters per second. ![]() It is the EQUAL flow rate value of 1 cubic meter per second but in the cubic feet per second flow rate unit alternative. The cubic feet per second unit number 35.31 cu ft/sec converts to 1 m3/sec, one cubic meter per second. the total you get after multiplying the three dimensions together) by 1728. How many cubic feet per second are in 1 cubic meter per second? The answer is: 1 m3/sec equals 35.31 cu ft/sec 35.31 cu ft/sec is converted to 1 of what? If you need to convert to cubic feet from inches: divide the final number (i.e. Worth thinking about when you try to figure out what you are really trying to ask.CONVERT : between other flow rate measuring units - complete list. In other words, the mean flow velocity is half the peak velocity. How much faster is the fastest liquid? Well, if you assume a circular cross section and a parabolic profile, then we can write the velocity as a function of radius r (for a pipe with radius R): But when I initially wrote this answer, we had no inkling that you were asking about flow in a river. Note - if you have a river, the flow is unlikely to be laminar (and the cross section is neither circular nor constant) so this analysis does not apply. In that case, there is no direct answer "how quickly will the water come out the other end" - because some water will come out much more quickly than the rest. For laminar flow, the velocity follows a parabolic profile, with the points near the wall being almost stationary, and the points in the middle going fastest. The actual velocity of a fluid in a pipe is a function of the position in the pipe. If you use cubic feet per second and feet squared, the result will be in feet per second. Superficially, if you have a volumetric flow rate of $V$ through a pipe with constant area $A$, then the average velocity of the fluid is given by ![]() This is a more complicated question than you think.
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