The amount of a substance per defined space. Concentration usually is expressed in terms of mass per unit volume.
The volume of a solid object is the three dimensional concept of how much space it occupies, often quantified numerically.
concentration gradient
Concentration Gradient
no. High concentration to low concentration. The molecules move down the concentration gradient.
There are two definitions 1.According to Arrhenius an acid produces hydrogen(H+) ions, and bases produces hydroxides ions (OH-). This one is a limited concept. 2. The Bronted-Lowry model, and acid is a proton(H+) donor and a base is a proton(H+) acceptor. This concept is more exact. A salt is an ionic compound form by a metal and a nonmetal.
The amount of solute relative to solvent is what determines concentration. Therefore, solute is the property of solutions on which the concept of concentration relies.
The concept that toxins accumulate in predators in high concentrations. Also called Bioaccumulations.
The answer for the crossword is "osmosis", although few people can understand the actual concept.
The Jews were prisoners in the concentration camps, not employees. The concept of bathroom breaks does not apply.
A freckle! It's the same concept of the concentration of pigmentation as a freckle has on the skin.
I wonder what you mean by 'salvation'. Normally, it is a religious concept involving rebirth, but perhaps you mean something else.
When the concept of an internment camp was unveiled by Germany in 1934, Heinrich Himmler described it as a place where "...enemies of the Reich could be concentrated." The name stuck, and they were known as concentration camps for the duration of the war.
The volume of a solid object is the three dimensional concept of how much space it occupies, often quantified numerically.
"Typhra" is not a recognized term or concept. It may be a misspelling or misunderstanding of a different word. If you provide more context or information, I can try to assist further.
It helps to quantify the concentration of solute in any solution - molarity is calculated by dividing the amount of solute by the total volume of the solution. The unit of molarity is moles/L.
Fick's laws of diffusion describe diffusion and can be used to solve for the diffusion, the concentration gradient (spatial derivative), or in simplistic terms the concept.
ahm... im really not so sure about this thing... but i think that, the more number of moles present in a solution the more concentrated it is....