You don't solve stoichiometry. The questions and answers that arise in stoichiometry are merely manipulations of permanent relationships between things (e.g. there are approximately 70.9 grams in one mole of chlorine gas). The conversions needed to report an answer of a stoichiometric problem are the part that take work to overcome mentally. One has to evaluate the units that a value starts with and the units the final answer requires and think about what conversions are needed in between.
Depends, proportional factor could be a method.
Well, first you start with a problem . . .
Moles
Stoichiometry is the calculation of the various products and reactants in chemical reactions. The two types are reaction stoichiometry and composition stoichiometry.
When a problem has a label "stoichiometry" on top of it.
Depends, proportional factor could be a method.
Well, first you start with a problem . . .
Moles
Stoichiometry is the calculation of the various products and reactants in chemical reactions. The two types are reaction stoichiometry and composition stoichiometry.
When a problem has a label "stoichiometry" on top of it.
An example of stoichiometry is any chemical reaction. HCl+NaOH->NaCl+H2O may be an example of stoichiometry.
Stoichiometry is not a method of measurement, it is a concept for the ratios of reactants and products.
Use stoichiometry to convert grams of Carbon to moles of carbon and solve. 28093g C *(1mol C/12.011g C)= 2338.94mol C
The heart of stoichiometry is the mole ratio given by the coefficients of the balanced equation
You think to chemical compostion or to stoichiometry.
Chemists do.
Because chemical reactions take place in molar ratios. The number of moles of each kind of atom has to be the same on both sides of the equation.