The volume is still 100 ml: the shape does not affect the volume.
volume is to a cube volume is to a cube
It is 4.5*(Volume of Cube).
The volume of Cube B is 216 cm3
The volume of a cube is determined by cubing the length of one edge, so the cube root of the volume will give you the length of an edge. (In a cube, all of the edges are the same length)
The volume is still 100 ml: the shape does not affect the volume.
The surface area to volume ratio of a cell affects the rate of diffusion in that the higher the ratio, the faster the rate of diffusion. This is a directly proportional relationship.
volume is to a cube volume is to a cube
increase
It is 16*(Volume of the Cube).
It is 4.5*(Volume of Cube).
volume of the cube - volume of the sphere = volume enclosed between the cube and sphere
An increase in pressure and temperature generally increases the rate of diffusion by increasing the kinetic energy of the particles, leading to more frequent collisions and a higher probability of diffusion. However, an increase in volume density can hinder diffusion by increasing the number of particles in a given space, which can lead to more collisions and decreased diffusion rates.
The volume of a cube of 5cm is: 125 cm3
The volume of Cube B is 216 cm3
The volume of a cube is determined by cubing the length of one edge, so the cube root of the volume will give you the length of an edge. (In a cube, all of the edges are the same length)
The volume of a cube depends on the length of its side.