(All side's of congruent) Then volume=S2.So just take the cube root of the volume.
The density and the mass have no bearing on the length as they can vary no matter the size of the cube.Volume does have direct bearing.
Each edge measures 2 meters in length.
Volume = length*width*height. For a cube l,w, and h are all the same. So length*length*length=1000. Therefore length^3 = 1000. Take the cube root of 1000 to find the length. It is 10.
You can solve this in two steps. (1) Calculate the ball's volume. Use the formula for a sphere, and remember that the radius is 1/2 the diameter. Convert the result it either to cubic decimeters (= liters) or to cubic meters. (2) Divide the mass by the volume.
The dimensions of a standard 20' General Purpose container are: Length: 5.919m Width: 2.340m Height: 2.380m To calculate the volume in cbm multiply the length x width x height: 5.919 x 2.340 x 2.380 = 32.96cbm Practically though, the usual maximum loading volume is around 28cbm, depending on the size of the cartons you are sticking in it. You can hardly ever pack it right to the edge and the top. For a 40'GP:- Length: 12.051m Width: 2.340m Height: 2.380m 12.051 x 2.340 x 2.380 = 67.11cbm The same applies when loading as with a 20', drop roughly 5cbm to be safe with your capacity if you are planning a shipment.
you multiply the length times width times height and you should get the volume. If the solid is of uneven shape, immerse it in the known volume of water and note the increase in volume of water due to inclusion of solid. This extra volume of water created by displacement is the volume of that solid.
Mass = Density x Volume Density = Mass ÷ Volume Volume = Mass ÷ Density
The idea is to use the formula mass = volume x density. Replace the numbers you know, and solve.
The volume of a cube is a side cubed. V=S3 So, to find the length of a side, solve for S, to find that the side equals the cube root of the volume. Ex: Volume=8 cubic meters Then 8=S3, therefore s=2 meters.
you can't Square meters are a measure of area, cubic meters are a measure of volume. If you were told a cube has an area of 1064 square meters what is it's volume? then you could solve it but that is not what you have asked!
It is: cross-section area*length and measured in cubic units
For a cuboid, Volume = Length * Width * Height = 0.25*6.1*4.9 = 7.4725 m3
A cubic centimetre is a measure of volume. There is nothing to solve.
You multiply them together. Length x Width X Height = Volume.
The question does not have any sensible answer. A cubic foot is a measure of volume, while a foot is a measure of distance. It makes absolutely no sense to even try to convert from one to the other.
The formula for volume is length x width x height = volume. So if you take the volume and divide it by the length and width it should give you the height.
Use the ideal gas equation to solve this. PV= nRT. You will have to convert your pressure to atmosphere to use the constant R = 0.0821 L*ATM/mol*K. You know your initial pressure, volume, and temperature. Moles can be neglected (n) because they will stay the same. You also know your final pressure and final volume, so you can solve for final temperature.
You can solve this in two steps. (1) Calculate the ball's volume. Use the formula for a sphere, and remember that the radius is 1/2 the diameter. Convert the result it either to cubic decimeters (= liters) or to cubic meters. (2) Divide the mass by the volume.
The volume of cardboard would by measured in cubic meters or cubic centimeters. Since 1 cubic cm equals 1 mL, the volume of the cardboard is 946 cubic cm. In order to answer this question, the density of cardboard is required, which is 0.689 g/cm^3. Density = mass/volume. To solve for mass, multiply the density by the volume. 0.689 g/cm^3 x 946 cm^3 = 652 g of cardboard
Several dimensions can result in the same volume. Remember that liter is the same as cubic decimeter; 250 liter is equivalent to 0.25 cubic meters. Use the formula for a cylinder; use any value for the radius, then solve for the height.