V = 4/3 PI*r3 Where PI = 3.142
Volume of a sphere = (4/3) (pie)-(radius)3
The volume of each sphere works out about 0.0003 cubic yards and 6/0.0003 = 20,000 spheres
A solid shape.
Well, they are spheres, right? Volume of a sphere is 4/3pi r(to the 3rd). So, just multiply that by 6 and there ya go.
It depends on what you want to find the volume of!
1. Find volume of spheres = 4/3pr3 and multiply by 4 since there are 4 spheres.2. Find volume of units cell = l 3 = (2Ö2r)3.3. Find volume of empty space = vol unit cell minus volume of spheres.4. Divide volume empty space by volume of unit cell.It works out to 25.952
The volume increases 27-fold.
If the ratio of the radii is 1:3 then the ratio of volumes is 1:27.
Each sphere has a volume of about 0.0003 cubic yards and 6/0.0003 = 20,000 spheres
well each and every geometrical figure has its own importance. Spheres have the least surface area for a given volume compared to any other object of same volume.
Volume of a sphere = (4/3) (pie)-(radius)3
The volume of a sphere is 4/3 x pi x r3. The radius of those spheres is 0.25 inches. This means the volume of the spheres is 0.0491 cubiic inches. Dividing 353.43 by 0.0491 gives us 7198.17. Assuming we're going by whole spheres, it would take 7198 spheres to occupy this space.
Volume of a sphere = (4/3) x (pi) x (Radius)3
In general, the volume of an object is its Length x Width x Height. If the building is not a regular shape then you would have to figure it out in sections that are regular shapes. For example, cylinders, spheres, pyramids, etc.
A cylindrical protist has a higher surface are to volume ratio. This is because of the physical properties of spheres (some rather complicated math proves that spheres hold the most volume for their area).
There are different formulae for different solids such as spheres or polyhedra.
If you increase the radius, the volume will increase more than the area.