None. The well, as described, is a 2-dimensional obect which has no volume.
well, I figured it out and I would have to say about no more than 2000 gallons 15*30*4.5=2025(apr) I'm sorry Amber, but that is nowhere near the correct answer. If the pool is rectangle/square or freeform there are approximately 15,187.5 gallons of water. If the pool is oval or round there are approximately 11,947.5 gallons of water. To figure this out you multiply your length x width x avg. depth (shallow+deep÷2) x multiplier. Multiplier for rectangle/square/etc. 7.5 Oval or round 5.9
one hundred gallons
A cylinder measuring 12-ft high and 4-ft diameter has a capacity of 1,128 gallons. (rounded)We have no way of knowing how much water is in it. The well may dry, full of debris,or completely empty.
If the sides are straight ... the diameter is 3-ft all the way down ... andthe bottom is flat, then the water is a cylinder.Volume of a cylinder = pi R2 H = pi (1.5)2 (3) = 21.206 cubic feet = 158.6 gallons (rounded)
Well, I'm not that sure but when i was younger I fell in it. So I reckon about 200 L, cause it is pretty big
Filled to the top, this well would hold about 956 gallons of water.
Cannot be answered without knowing the diameter of the well.
"3 feet round" is not clearly defined: is that the radius, the diameter, or the circumference?
need to know the width of the tub as well.
You need to provide information on the area of the pool as well.
When it is 3/4 full, it will hold 450 cu ft of water which is 2803 Imperial gallons.
It is necessary to know the length as well as the width and depth of the pool in order to calculate its volume.
Truman Lake in Missouri has about 11.32 million gallons of water in it. There are several types of fish in the lake as well.
well a few thousands of people waist hundreds of gallons of water everyday
http://www.letmegooglethatforyou.com/?q=125g+to+lbs
It depends on the density and thickness of the foundation, as well as the speed of the water.
well there are many diffrent sinks so its really hard too answer that . Sorry