Well this is a very poor question as one would have to know the kind of piping material as there is friction losses to consider (Hazen Williams formula and Boyle's law) then one should consider head loss if this is a vertical piping and finally are there other restrictions such as valves/ ells and or valves that are not full port such as globe pattern
TS = OR * CTD / STD Where: TS = True Speed OR = Odometer Reading CTD = Diameter of the current tires on your car STD = Diameter of the Standard Tire for your car.
Assuming that the pressure remains at a constant, reducing the diameter of the pipe will increase the water flow. On the contrary, increasing the diameter would cause the water to flow at a much slower rate.
You would need to know the gear ratio and tire diameter to calculate engine speed.
That would depend on the application as some are larger then 48"
That would depend on the temperature and is this fresh or sea water? About 305.72
Simple/Reading: "Five point two six seven." or some variant thereof. Complex/Mathematical: "Five and two-hundred-sixty-seven thousandths."
The answer is Constipation
Yes, it does (although if it's only 60 tons, it would hardly qualify as a 'ship'- more of a 'boat'!) All ships & boats displace their own weight in water- so for example, a boat of 60 tons would displace 60 tons of water when it was afloat.
Just think of what can be pronounced. Sixty-secondth can't be said. Sixty-second is easy. 62nd it is.
23
the diameter would be 7 inches
The diameter would be approximately 7. In exact figures it would be 7