For a homogeneous material the concentration is independent from the size.
concentration dependent killing
The dependent variable for growing crystals is typically the size, shape, or clarity of the crystals. These characteristics are directly influenced by the independent variables in the experiment, such as temperature, concentration of the solution, or type of crystal-growing substance.
The reversible reactions are more dependent.
The depression of the freezing point is dependent on the nature of solvent and concentration of solute.
Osmosis is dependent on the concentration gradient of solute particles across a semipermeable membrane. Water moves from an area of lower solute concentration to an area of higher solute concentration to equalize the solutions on both sides of the membrane.
size independent
Primarily the cooling rate of the mineral compound.The faster the rate cooling smaller the crystal size of the mineral.Consequently, large crystal specimins are derived from igneous bodies with a very slow rate of cooling.
It depends on which variable is independent, and which one is dependent (its value is determined by a function of the independent variable). So suppose that concentration is a function of an arbitrary length (the length is what determines concentration). The independent variable (length) is put on the horizontal axis, and the dependent variable (concentration) is put on the vertical axis.
If something is size dependent then some important aspect of that thing is influenced strongly by its size. If something is size independent, then its size does not influence any important aspect.
Size-dependent refers to a relationship or characteristic that changes based on the size or scale of an object or system. This can include how properties, behavior, or effects vary depending on the size of the entity being considered. Size-dependent effects are commonly observed in areas such as material science, biology, and physics.
The rate of a chemical reaction that is most dependent on the concentration of the reactants is known as a first-order reaction. In a first-order reaction, the rate of the reaction is directly proportional to the concentration of one reactant. Therefore, changes in the concentration of the reactant directly impact the rate at which the reaction proceeds.
In general the mean of a truly random sample is not dependent on the size of a sample. By inference, then, so is the variance and the standard deviation.