The type of reaction in which a reactant gives simpler products is called a decomposition reaction. In a decomposition reaction, a single compound breaks down into two or more simpler substances.
Water is not a product.It is a reactant in light reaction. Water is splitted to get electrons
The reaction equation gives the RATIO of moles reactant to moles product. With known molar mass the (mass) yield can be calculated. (Of course other reactants are to be in excess! for complete reaction of the reactant involved for this yield)
Dividing the reaction rate of a reactant or product by its stoichiometric coefficient allows you to determine the rate at which that species is being consumed or produced in the reaction. This is important in understanding the relative rates of different species in the reaction and can provide insights into the reaction mechanism.
You can calculate the equilibrium constant (Kc) of the reaction. This constant gives you information about the extent of the reaction at equilibrium and helps predict the direction in which a reaction will proceed.
a mole ratio of any two substances in the reaction
A reactant that gives the lowest yield by limiting the amount of product is called a limiting reactant. The limiting reactant will run out, so that only a limited amount of product can be made from the reactants.
Increasing temperature generally increases the rate of a reaction because it provides more energy for the reactant molecules to overcome activation energy. Lowering the temperature can slow down the reaction as there is less energy available for the reactant molecules to collide effectively and form products. However, extreme temperatures can denature enzymes and disrupt the reaction process.
The amount of reactants and products do not change in reversible reactions because, in a chemical reaction, matter is neither created nor destroyed -- it is only rearranged. This is the law of conservation of matter.
Water is not a product.It is a reactant in light reaction. Water is splitted to get electrons
The coefficients in a balanced chemical equation represent the relative amounts of reactants and products involved in the reaction. They provide information about the mole ratio between the substances participating in the reaction.
To calculate the equilibrium constant for a chemical reaction, you need to divide the concentration of the products by the concentration of the reactants, each raised to the power of their respective coefficients in the balanced chemical equation. This gives you the equilibrium constant, which represents the ratio of product concentrations to reactant concentrations at equilibrium.
The reaction equation gives the RATIO of moles reactant to moles product. With known molar mass the (mass) yield can be calculated. (Of course other reactants are to be in excess! for complete reaction of the reactant involved for this yield)
Dividing the reaction rate of a reactant or product by its stoichiometric coefficient allows you to determine the rate at which that species is being consumed or produced in the reaction. This is important in understanding the relative rates of different species in the reaction and can provide insights into the reaction mechanism.
There is no elemental iron (Fe) involved in this reaction, neither as reactant (iron sulphide -FeS- plus oxygen are) nor as product (iron oxide (FeO) plus sulphur dioxide are)
the coefficients of a balanced reaction
Since it gives differed products, its a chemical change.
Chlorinated products of humic acid (or polyphenols) are formed (by substitution and or addition reactions) which gives them an awefull odor.