We have to assume that those are the dimensions of some kind of big block-shaped
tank, with no curves.
60-ft x 84-ft x 144-ft = 725,760 cubic feet = 26,880 cubic yards = 5,429,061.8 gallons (rounded)
If the sides aren't flat, or there are any curves anywhere on the tank, then
in order to calculate the volume, we need all the details.
To measure water volume in a tank, you can use a measuring tape or a ruler to determine the dimensions of the tank (length, width, and height) and then calculate the volume using the formula: Volume = Length × Width × Height. For irregularly shaped tanks, you can use water displacement methods or refer to manufacturer specifications if available. Additionally, flow meters can be installed to provide real-time measurements of water volume as it enters or exits the tank.
To calculate the volume of water in a tank, you need to know the tank's shape and dimensions. For a rectangular tank, multiply the length, width, and height (Volume = Length × Width × Height). For a cylindrical tank, use the formula Volume = π × radius² × height. Ensure all measurements are in the same units to obtain the volume in cubic units.
58,320 units3
The answer depends on whether or not the tank has a geometric shape. If it has a shape that can be broken up into simply geometric shapes, each with a volume formula, you can calculate the volume of each section and add them together. Obviously that will not work with a random shape. In that case, you can fill the tank to capacity and then empty it out into measuring jars or flasks. Use the volume of the jars to calculate the volume of the tank.
It is: 5*5*2 = 50 cubic m
You would use a measuring cup or a graduated cylinder to measure the amount of water in a fish tank. Alternatively, you can also calculate the volume of water by measuring the length, width, and height of the tank and using a formula for volume.
To measure water volume in a tank, you can use a measuring tape or a ruler to determine the dimensions of the tank (length, width, and height) and then calculate the volume using the formula: Volume = Length × Width × Height. For irregularly shaped tanks, you can use water displacement methods or refer to manufacturer specifications if available. Additionally, flow meters can be installed to provide real-time measurements of water volume as it enters or exits the tank.
weigh him, and then find his volume by submerging him in a full tank of water, and measuring the amount of water that has overflowed. Once you have the volume, divide his weight by that, and you will have his density
liters
It depends on the shape of the tank.
To calculate the volume of water in a tank, you need to know the tank's shape and dimensions. For a rectangular tank, multiply the length, width, and height (Volume = Length × Width × Height). For a cylindrical tank, use the formula Volume = π × radius² × height. Ensure all measurements are in the same units to obtain the volume in cubic units.
58,320 units3
sounds like a 275 gal oval residential tank
WELL, The volume of the tank is 4*3*1.5=18m3. The volume of a rectangular stone is 0.15*0.1*0.08=0.0012m3. To raise the water to the top, the volume of stones that occupy the tank must be equal to the remaining space unfilled by water. That is, Volume of stones to be dropped = Volume of Tank - Volume of water in the tank. Now the Volume of water in the tank is 0.6*4*3=7.2m3. Empty space in tank = 18 - 7.2 m3 = 10.8m3. To get the number of stones to be dropped to fill this empty volume, Number of stones = Volume of empty space / volume of a stone. = 10.8 / 0.0012 = 9000.
The answer depends on whether or not the tank has a geometric shape. If it has a shape that can be broken up into simply geometric shapes, each with a volume formula, you can calculate the volume of each section and add them together. Obviously that will not work with a random shape. In that case, you can fill the tank to capacity and then empty it out into measuring jars or flasks. Use the volume of the jars to calculate the volume of the tank.
The answer to this is pretty straightforward. First, the volume a tank measuring 100 by 40 by 60 cm is 100x60x40cm = 240,000 cm^3 or cubic cm. Since one liter = 1000 cm^3, the total tank volume is thus 240 liters. If the tank is half full, then simply halve the amount of water so the tank would contain 120 liters if half full. The same approach can be used for any tank or container assuming it's volume is known, or can be calculated.
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