Yes if the distance that the molecule has to travel is long then the rate of diffusion will be slower.
Pathogen susceptibility influences the zone of inhibition because organisms will not grow if they are susceptible to antibiotics. Another influence are the pH levels of agar which should fall between 7.2 and 7.4 room temperature.
The rate law for the reaction between hydrochloric acid (HCl) and sodium thiosulfate (Na₂S₂O₃) can be expressed as rate = k[HCl]^m[Na₂S₂O₃]^n, where k is the rate constant, and m and n are the orders of the reaction with respect to HCl and Na₂S₂O₃, respectively. Typically, the reaction is found to be first order with respect to both reactants, which means m = 1 and n = 1, leading to a rate law of rate = k[HCl][Na₂S₂O₃]. The exact values of the orders can vary based on experimental conditions.
Nothing, O negative blood is the universal donor. Everyone can receive it without complications.
There are three syllables in the word "decorate" (dec-o-rate).
Small, nonpolar molecules, such as oxygen (O₂) and carbon dioxide (CO₂), can pass through the cell membrane by simple diffusion. These molecules can easily permeate the lipid bilayer due to their size and hydrophobic nature, allowing them to move down their concentration gradient without the need for energy or transport proteins. Additionally, small uncharged polar molecules like water (H₂O) can also diffuse through the membrane to some extent, although less efficiently than nonpolar molecules.
That is the proper spelling of the term diffusion.
as in the equation D-RT D stands for distance. R stands for rate. T stands for time....., that is all i know of R and t but i dont know if you meant in a different way.....o ya the way to say the equation is Distance= Rate x Time
In chemistry diffusion is the passage of particles across a membrane. Diffusion does not relate to the rusting of iron (Fe). Rust itself is an oxidation reaction, rather than diffusion. Oxidation involves the chemical reaction of Fe to atmospheric oxygen (O) to form iron oxides (FeO)s.
a=n+m-nm o a= crude annual mortality rate o n= natural o m= harvest
no
If 'f' is the focal length of the lens, and 'o' is the distance between the lens and the object, then the distance between the lens and the image is: ('f' times 'o') divided by ('o' minus 'f')
Diffusion I F From high to low concentration U S Important O No energy required
Please help O^O
The diffusion of water through a cell membrane is known as osmosis. In osmosis, water molecules move from an area of higher concentration to an area of lower concentration to balance the concentration of solutes on both sides of the membrane.
L O v E
O% chance
Richard O Carlson has written: 'The diffusion of educational innovation' -- subject(s): Experimental methods, Educational innovations, Education, School administrators