1. LxWxH volume
2. Pouring liqiuid into a measuring cup
3. Droping a abstract object into beaker and measuring the difference
ex/ pouring 10ml of water into a beaker, and you drop a abstract object which u cannot meaure with tradition methods, and them measturing the difference. So when you drop it in the water rises to 12ml u subtracrt 12m with 10ml and you have 2ml which is the volume of your object
You can use either your eyes, calculate the volume or practically pour liquids in a given container to find out which one has a bigger volume.
surface area to volume ratio can be solved by solving the surface are of something and the volume of something then putting them togetherEXAMPLE: if it is a cube with 4 cm on each side it would be 6(4)^2 = 6(16)=96cm and volume would be 4^3= 64 so ratio would be 96:64 which can be simplified 3:2 or 3 to 2
1. Calculate the surface area 2. Calculate the volume 3. Divide
calculate the volume using the formula: Vsphere = (4/3)*pi*r^3 then calculate density by Density = Mass/Volume
You will get the maximum volume in the case of a sphere. You can use the formula for the surface of a sphere to calculate the radius; from there, you can calculate the corresponding volume.Similarly, for other objects, such as a cube, the volume you get will be less.
If the object shape can be approximated as being comprised of several simple geometric shapes one can just calculate the volume of each of these shapes based on their individual geometries. If the object is highly asymmetrical and it is not comprised of a series of geometrically simple shapes then you can do the following: 1) calibrate a large vat or container by marking the volume at various levels. 2) fill the container (not to the top) with water. 3) submerge the object in the container 4) calculate the change in volume. 5) the volume of the object is equal to the change in volume in the container If the object is too big to be placed in a vat but the object has a homogeneous density then one can do the following: 1) break off a small piece of the object 2) measure the mass of this small sample piece 3) measure the volume of the small object sample using steps 1-5 above 3) calculate the density of the homogenous material that comprises the sample density=mass/volume 4) measure the mass of the entire object 5) calculate the total volume: volume=mass/density 6) if you want to be precise you can add to this the sample volume that you cut away in step 1 If the object can't be submerged and is made up of several parts with different homogeneous densities then repeat steps 1-6 for each part of the object and sum the values of the volume for each part of the object. (Note: do not use this method if you value keeping the object in one piece.) If the object can't be submerged and has a variable density throughout its volume then do the following: 1) create a mold of the object 2) fill the mold with water 3) calculate the volume of water required to fill the mold
How do we calculate volume of any cone shape object....like textile spinning auto cone 5.57 angle or degree
You can use either your eyes, calculate the volume or practically pour liquids in a given container to find out which one has a bigger volume.
A unit of volume for a 3 dimensional object such as cubic inches, metres, litres etc. A unit of area for a 2 dimensional object such as square inches, metres etc
The physical properties that are used to calculate density are mass and volume. Specifically, density = mass/volume. Some examples of density units include kg/m^3, g/cm^3, kg/L, and g/mL.
the volume of a cube is a*3
The volume of a of a 3-d object is the number of cubic needed to fill the object.
surface area to volume ratio can be solved by solving the surface are of something and the volume of something then putting them togetherEXAMPLE: if it is a cube with 4 cm on each side it would be 6(4)^2 = 6(16)=96cm and volume would be 4^3= 64 so ratio would be 96:64 which can be simplified 3:2 or 3 to 2
Calculate the volume of the substance by measuring the length, width and height. The formula looks like this: Volume = L (length) x W (width) x H (height). Determine if the object or substance is irregularly shaped. If so, you can determine the volume by finding out how much water is displaced when the object is dropped into a beaker of water. Calculate the density once you know the volume and mass of the substance or object. Density is equal to the mass of the substance divided by its volume: D (density) = M (mass) / V (volume).
1. Measure the dimensions of the object 2. Calculate the volume, in cm3 3. Weigh the object, in g 4. The density is the ratio between the mass and the volume, in g/cm3. For small objects you can use special densimetric balances.
1) Calculate the area 2) Calculate the volume 3) Divide the area by the volume to get the ratio
1. Calculate the surface area 2. Calculate the volume 3. Divide