The coefficients and molar masses are used to calculate amounts of molecules.
the coefficients of a balanced reaction
The free energy (delta G) is the measure of the amount of energy produced or consumed in a reaction. Enthalpy (delta H) is a measure of the amount of heat produced or consumed in a reaction. These two quantities can sometimes be the same. When they are not, the other missing component where heat can be consumed or produced is work.
The exponents determine how much concentration changes affect the reaction rate
The bond between the two atoms in a nitrogen molecule is much stronger than the bond between the two atoms in an oxygen molecule. Therefore, the free energy change driving a reaction with oxygen is usually greater for reaction with oxygen, and the activation energy barrier is always lower, allowing the reaction with oxygen to proceed more rapidly, despite the greater concentration of nitrogen.
To determine the amount of excess reagent in a chemical reaction, first calculate theoretical values for your reaction to get an estimation of how much of your excess reagent will be left once the limiting reagent is used. Then run the actual experiment and measure!
The coefficients and molar masses are used to calculate amounts of molecules.
about 36 to 38 ATP molecules are produced for every glucose molecule.
the coefficients of a balanced reaction
The enthalpy of reaction
A glucose molecule is used.It contains about 2880 Kj
A glucose molecule is used.It contains about 2880 Kj
The exponents determine how much concentration changes affect the reaction rate
The exponents determine how much concentration changes affect the reaction rate
The exponents determine how much concentration changes affect the reaction rate
The amount of heat produced in a reaction is not fixed. It depends upon the total amount of energy change that has taken place in the reaction altogether. Not only this, all reactions do not produce heat. In some cases we have to supply energy from external sources to get the reaction started.
One turn produces 1 ATP. So 2 molecules of ATP are produced for every molecule of glucose (because it happens twice for every glucose molecule)
It's not the amount of wind, but the design of the generator, that decides what voltage is produced. The amount of wind will determine the power produced.