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∙ 11y ago500 / (16 x 12) = ~2.604 gallons/inch
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∙ 11y agoIt's not possible to calculate the answer with the information given.An object with a mass of 15 kg can be dropped from a building of any height.
If you filled a British Beer Barrel with water, it would weigh 163kg, or 359lb. If you have a barrel that you want to know the volume of, then we need to know the height, the radius of the widest part, and the raduis of the top. For other barrel sizes, look at en.wikipedia.org/wiki/Barrel_(unit)
i think the 15 is fifteen feet diamete, and 48 is forty-eight inches i height
This cylinder has a total surface area of ≈ 1,156.11 square inches.
The radius of the barrel, r = 3 feet. Suppose the cylindrical part of the barrel has a height of h feet.Then volume of cylindrical part = pi*r2*h cu ftand volume of hemisphere = 2/3*pi*r3 cu ftSo total volume = pi*r2*(h + 2r/3) = 868.87that is, pi*9*(h + 2) = 868.87h + 2 = 30.73 so that h = 28.73Therefore, the total height of the barrel, including the hemispheric top is28.73 + 3 = 31.73 feet.More a silo than a barrel, but that's another matter.The radius of the barrel, r = 3 feet. Suppose the cylindrical part of the barrel has a height of h feet.Then volume of cylindrical part = pi*r2*h cu ftand volume of hemisphere = 2/3*pi*r3 cu ftSo total volume = pi*r2*(h + 2r/3) = 868.87that is, pi*9*(h + 2) = 868.87h + 2 = 30.73 so that h = 28.73Therefore, the total height of the barrel, including the hemispheric top is28.73 + 3 = 31.73 feet.More a silo than a barrel, but that's another matter.The radius of the barrel, r = 3 feet. Suppose the cylindrical part of the barrel has a height of h feet.Then volume of cylindrical part = pi*r2*h cu ftand volume of hemisphere = 2/3*pi*r3 cu ftSo total volume = pi*r2*(h + 2r/3) = 868.87that is, pi*9*(h + 2) = 868.87h + 2 = 30.73 so that h = 28.73Therefore, the total height of the barrel, including the hemispheric top is28.73 + 3 = 31.73 feet.More a silo than a barrel, but that's another matter.The radius of the barrel, r = 3 feet. Suppose the cylindrical part of the barrel has a height of h feet.Then volume of cylindrical part = pi*r2*h cu ftand volume of hemisphere = 2/3*pi*r3 cu ftSo total volume = pi*r2*(h + 2r/3) = 868.87that is, pi*9*(h + 2) = 868.87h + 2 = 30.73 so that h = 28.73Therefore, the total height of the barrel, including the hemispheric top is28.73 + 3 = 31.73 feet.More a silo than a barrel, but that's another matter.
I don't know the height of the tank. If the tank is 20 ft high, then there is a volume of 25 barrels per ft.
The barrels by inch in a 100 barrel tank refers to the amount of oil the tank can hold per inch of liquid depth. To calculate this, divide 100 barrels by the tank's height in inches. For example, if the tank is 60 inches tall, the barrels by inch would be 1.67 barrels per inch (100 barrels / 60 inches).
One barrel typically contains 42 US gallons of water.
To calculate the number of barrels in a 400 barrel oil tank per inch, you would need to divide the total capacity of the tank (400 barrels) by the height of the tank in inches. For example, if the tank is 100 inches tall, there would be 4 barrels per inch (400 barrels / 100 inches = 4 barrels per inch).
To calculate the number of barrels of oil per inch in a 210-barrel tank, you need to divide the total number of barrels by the tank height in inches. For example, if the tank is 84 inches tall, you would divide 210 by 84 to get approximately 2.5 barrels of oil per inch.
The number of barrels that can fit in a cylinder depends on the dimensions of the cylinder and the barrels. The formula to calculate the volume of a cylinder is πr^2h, where r is the radius of the base of the cylinder and h is the height. By dividing the volume of the cylinder by the volume of a barrel, you can determine how many barrels can fit inside.
To calculate barrels per foot in a tank, divide the total number of barrels by the tank's height. In this case, 1000 barrels in a 16-foot tank would be 62.5 barrels per foot (1000 barrels / 16 feet).
If there are 300 barrels in the tank and you want to determine how many barrels per inch, you would need to know the dimensions of the tank to calculate the volume of oil per inch. The calculation would involve dividing the total volume of 300 barrels by the height of the tank in inches. Without the specific height of the tank, it is not possible to provide an exact answer.
Over Time, Aye.
it depends on your height
From ten to fifteen centimetres.
Twelve to fifteen feet