It depends on the size of the disappearing sphere. If a small sphere disappeared then air from adjoining space would move in and balance would soon be be restored. However, if a large sphere disappeared then the adjustment could involve extreme turbulence.
Volume of the sphere varies as the cube of the radius.Tripling the radius increases the volume by a factor of (3)3 = 27.It takes 27 spherical volumes with radius 'r' to fill one spherical volume with radius '3r'.
No. A sphere has the smallest surface to volume ratio possible and a basketball is nearly spherical in shape (it has surface dimpling and seams).
Most efficient use of space. More volume inside than any other configuration.
The reason mercury droplets are spherical is because they do easily wet other surfaces. For this reason, mercury forms spheres, which have the smallest possible ration of surface area to volume.
Density decreases
The spherical shape is the smallest surface area for a given volume. This comes about naturally when a surface under pure surface tension contains a fluid volume.
A sphere volume = 4/3 pi r cubed
make it spherical
The earth is a spherical shape and the volume of a sphere is: 4/3*pi*radius3
Volume
is the diameter of a sphere having same volume as that of the paricle.
Volume of a sphere = 4/3*pi*radius3 measured in cubic units
volume of spherical = 4/3*Pi*Radius^3 = 4/3*3.14*32^3=137188
What is the radius of a sphere is given by the formula r 0.7 5V 13 .that has a volume of 32 3 cubic meters where V is its volume. Find the radius of a spherical tank
V=(4/3)*pi*r^3
i need the height dude what is the height?
Density = mass / volume since earth is nearly spherical, Volume = (4/3)pi x r3 find volume, then divide this into the mass.