By definition, a 10 molar solution contains 10 moles of the solute per liter of solution. Therefore, since 100 ml is 1/10 of a liter, 100 ml of such a solution would contain one mole of the solute. Physically, this would normally be accomplished by adding 10 grams, stated to be one mole of the solute, to a 100 ml volumetric flask, then adding pure water until the mark on the neck of the flask is reached.
To create a 10 molar solution with a total volume of 100 ml for a compound with a molecular weight of 10 grams, you would need to dissolve 100 grams of the compound in enough solvent to bring the total volume to 100 ml. This calculation is based on the formula: molarity = moles of solute / volume of solution in liters. Given the molecular weight and desired molarity, you can calculate the mass of the compound needed.
To make a 5mM solution of a compound, you would need to dissolve an appropriate amount of the compound in a solvent to reach a final concentration of 5 millimoles per liter (5mM). The exact amount of compound required will depend on its molecular weight and the volume of solvent you are using. You can use a molecular weight calculator to determine the amount needed to achieve a 5mM concentration.
To calculate the volume of a compound when given its molecular weight and weight, you need to first convert the weight to moles using the molecular weight. Then, you can use the density of the compound to find the volume by dividing the weight in moles by the density. The formula is volume = weight (in moles) / density.
The compound KO doesn't exist.
In order to find the molecular weight of a compound the components would have to be converted. The conversions are 750mmHg to .987atm, 275ml to .275l, the weight stays at .920g, and the temperature from 100c to 373.15k. These numbers plugged into the equation MW=mRT/(PV) the molecular weight is found to be -.63.
The molecular formula for the compound is C10H16O10. To determine this, divide the percentage of each element by its atomic weight, then multiply by the molecular weight provided.
To determine the equivalent weight from the molecular weight, you need to divide the molecular weight by the valence (or charge) of the compound. For example, for a compound with a molecular weight of 100 g/mol and a valence of 2, the equivalent weight would be 50 g/equiv.
To make a 5mM solution of a compound, you would need to dissolve an appropriate amount of the compound in a solvent to reach a final concentration of 5 millimoles per liter (5mM). The exact amount of compound required will depend on its molecular weight and the volume of solvent you are using. You can use a molecular weight calculator to determine the amount needed to achieve a 5mM concentration.
NH is not a compound.
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To calculate the volume of a compound when given its molecular weight and weight, you need to first convert the weight to moles using the molecular weight. Then, you can use the density of the compound to find the volume by dividing the weight in moles by the density. The formula is volume = weight (in moles) / density.
Silk is a mixture, not a compound.
To calculate the grams of a compound in a solution, you need to know the concentration of the compound in the solution (in g/L or mg/mL) and the volume of the solution (in liters or mL). Multiply the concentration by the volume to get the total mass of the compound in the solution.
The molecular weight.
search for the compound it will tell you. i think you add the number of protons and electrons to get the moleculer weight
To make a 2 M solution of a compound, you would need to weigh out the correct amount of the compound based on its molecular weight and dissolve it in enough solvent to reach a final volume that gives you a concentration of 2 M. You can use the formula: amount of compound (g) = molarity (M) x volume (L) x molecular weight (g/mol) to calculate the amount needed.
The compound KO doesn't exist.
In order to find the molecular weight of a compound the components would have to be converted. The conversions are 750mmHg to .987atm, 275ml to .275l, the weight stays at .920g, and the temperature from 100c to 373.15k. These numbers plugged into the equation MW=mRT/(PV) the molecular weight is found to be -.63.