In complete data. Any way let us assume the cross section of the tank is a sqaure of side 60 ft. Then its area would be 3600 ft2. So its volume would come to 3600 ft3
To calculate the total volume of a beam, we need to know its cross-sectional shape (e.g. rectangular, circular) and dimensions. If the beam is a rectangular prism with a cross-section of 1ft x 1ft, then the volume would be 60 cubic feet. If the cross-section is different, we need that information to calculate the volume.
tank volume is based on cubic inches... if the tank is 4ft x 1ft x 1ft.... that is 48 x 12 x12 = 6911 cuin. divide that by 231 cuin/gal and you get approx 29.9 gallons this does not allow for the thickness of the glass or the fact that the tank will not be filled up to the very brim.
I am assuming that you want to convert 1.5 ft to in. 1 ft = 12 in 1.5ft x (12in/1ft) = 18in
To calculate the weight of a piece of cast iron, you would need to know its volume and density. The formula to calculate weight is: weight = volume x density. You can find the density of cast iron online or in reference materials.
The pressure 5kPA is about 0.725psi or 104.4lbs/sqft. (we're using feet for the cross section of the straw so that we can use it easily for the height) We know that water has a density of 62.4lbs/ft^2. Therefore, we divide the weight of the water that we can suck up the straw at 5kPa by the density of water. We get the volume of water that we can move. (104.4lbs) / (62.4lbs/ft^3) = 1.67ft^3 Since our column is a 1ft x 1ft column, water will be able to be lifted to 1.67ft.
1yd = 3ft 20yd x 3ft/yd = 60ft 60ft + 1ft = 61ft
To calculate the total volume of a beam, we need to know its cross-sectional shape (e.g. rectangular, circular) and dimensions. If the beam is a rectangular prism with a cross-section of 1ft x 1ft, then the volume would be 60 cubic feet. If the cross-section is different, we need that information to calculate the volume.
998.8 lbs.
You need a 20 gallon (long). It is about 3ft long & 1ft deep.
This tank contains V = 2ft x 1ft x 1ft = 3ft3. Alternatively: V = 0.76m x 0.38m x 0.38m = 0.110m3 = 110dm3 = 110 litres.
they need length because if it is a crowntail those mostly can be pond fish if they are crown tail the length they need is around 1ft to 3 ft long and half a foot to 1ft deep
generally a 3ft tank is aprox 120L
The volume of the cube is 12" * 12" * 12" = 1728 cubic inches. Though more simply, since 12" = 1 ft, the volume is 1ft * 1ft * 1ft = 1 cubic foot.
Of course not. Imagine putting that 1-foot wide ball of solid iron in a box that is exactly 1 foot square. Won't there be a lot of empty space all around the ball, except at the points where the ball touches the flat wall of the container? The empty space proves the volume of the ball (sphere) is less than the volume of the cube. If the volume is less, and if both are made of the same thing, the sphere will weigh less.
The problem is to convert cubic feet to liters. Starting with 1 cu ft = 28.3168 liters 2 ft x 1 ft x 1 ft tank volume = 2 cu ft capacity If tank is only half full that would be 1 cu ft of water which = 28.3168 liters
A maximum of 957.51 gallons.
In terms of an oblong: 6in x 1ft x 28000ft 1ft x 1ft x 14000ft 1ft x 2ft x 7000ft 2ft x 2ft x 3500ft 20ft x 20ft x 35ft The above it not exhaustive - any three lengths that multiply together to create 14000cu ft will work. Other three dimensional shapes are equally possibly, eg pyramids (volume = 1/3 x base_area x height), cylinders (volume = {pi} x radius_base2 x height), as long as their volume is 14000cu ft.