How to calculate theoretical yield stoichiometry?

We use the metabolic quotient (qm) to describe the efficiency of an organism’s use of solar energy to produce biomass. The higher the value of qm, the more efficient an organism is at using solar energy to grow. To calculate qm, simply take your organism’s biomass yield and divide it by the energy required to produce one gram of biomass. For example, let’s say you have a high-yield crop like lettuce. If you have

How to calculate theoretical yield stoichiometry in ionic crystallization?

Caution: To use this equation, you need to know the number of atoms of each ion in the solutions used to crystallize your protein. This number will vary depending on the type of salt you used and the specific crystallization conditions (e.g., the number of salts, the temperature, the pH, the protein to crystallize and more). For example, if you added 0.5 M potassium chloride to your crystallization solution, you will need to account for this in your equation by

How to calculate theoretical yield stoichiometry of ionic crystallization?

If you crystallize a protein, you can use the single-protein crystallization (SPC) method to determine its crystallization yield. The SPC method involves setting up conditions for crystallization, then seeding the crystallization solution with the protein. If crystallization occurs within a day, it likely means that the protein is soluble at the crystallization conditions and the seed crystal is pure protein. However, if no crystals form after a day, the protein is likely denatured or insol

How to calculate theoretical yield stoichiometry in crystal growth?

There are several online calculators for the crystallization of any chemical species. Each calculator uses a different method for calculating the chemical potential of the species in the solution. One method is called the Gibbs-free energy calculator, which calculates the chemical potential of the species as a sum of the gas constant multiplied by the change in the number of atoms in the solution and the change in the enthalpy of the solution at a certain temperature. The enthalpy of the solution is usually obtained from the solution

How to calculate theoretical yield in ionic crystall

Not all cations are going to have a positive effect on the growth of anionic crystals, and not all anions are going to hinder the growth of cationic crystals. This is where calculated theoretical yield can be useful. If you’re trying to grow a potassium chloride crystal, for example, you wouldn’t want to add aluminum or magnesium to your solution. Both of these cations would hinder the growth of potassium chloride, because they are more soluble than potassium. However,