0.0280 moles
Stoichiometry relates moles of reactant to moles of product, so if you have the amount of reactant in the equation, you can calculate the amount of product produced.
The coefficients give the ratio of moles reactant to moles product.
Titration equation can be solved by following the steps below: 1. write a well balanced equation. 2. Calculate number of moles of standard solution that is in the solution. 3. User molar relationship to convert moles of standard solution to that of unknown solution. 4. Find the number of moles of unknown solution.
So here, you have to divide by the molecular weight. The molecular weight is 146g/mol. 16.3/146 is 0.11164 moles
This method assumes that a volumetric flask with capacity of 1.00 L is available, along with apparatus for measuring an arbitrarily chosen volume between 0 and 1 L to three significant digits of precision: First calculate how many moles of HCl are needed for the volumetric flask. Since "M" means moles per liter, this value is 0.646 moles. The calculate how large a volume of the 2.00 M solution is required to contain 0.646 moles of HCl. This value is (0.646 moles)/(2.00 moles/liter) or 0.323 liters. Then transfer this amount of the 2.00 M solution into the volumetric flask and dilute to the capacity mark with distilled or otherwise purified water.
You need to know the moles of solute and the VOLUME of SOLUTION.
To calculate the amount of moles of potassium chloride in a 0.400 M KCl (aq) solution, you may use equation (1) belown = c * v (1)where n equals the amount of moles, c is the concentration of the solution and v is the volume.We have the volume and the concentration, which renders us able to solve the equation:n = 0.400 * 1.2 Ln = 0.48 moles.
volume of the solution
Stoichiometry relates moles of reactant to moles of product, so if you have the amount of reactant in the equation, you can calculate the amount of product produced.
Molarity (M) indicates the number of moles of solute per liter of solution (moles/Liter) and is one of the most common units used to measure the concentration of a solution. Molarity can be used to calculate the volume of solvent or the amount of solute.
The coefficients give the ratio of moles reactant to moles product.
Increasing the amount of the solute in the solution the molarity and the density of this solution increases.
Molarity=moles of solute/liters of solvent=5mol/10L=0.5M
The amount of zinc is 0,01 moles.
By amount I assume you mean moles. The amount of moles per liter and the amount of moles are the same if you calculate from 1 L (which is what you do when you have, for example, 0,30 M) 0,30 M = 0,30 mol/liter, if you have 1 liter that means you have 0,30 moles. So you can use either moles or mol/liter.
Titration equation can be solved by following the steps below: 1. write a well balanced equation. 2. Calculate number of moles of standard solution that is in the solution. 3. User molar relationship to convert moles of standard solution to that of unknown solution. 4. Find the number of moles of unknown solution.
Titration equation can be solved by following the steps below: 1. write a well balanced equation. 2. Calculate number of moles of standard solution that is in the solution. 3. User molar relationship to convert moles of standard solution to that of unknown solution. 4. Find the number of moles of unknown solution.