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This is a very general statement, and the answer is no. However, the mass of the reactants must be equal to the mass of the products, under the law of conservation of mass.
The Law of Conservation of Mass applies. The total mass of all the reactants MUST equal the total mass of all the products, The individual comoounds may vary. e,g, A + B = C + D 25 g (A) + 30g (B) = 55 g of reactants. So the total mass of the products MUST equal 55 g. However, product (C) may have a mass of 40g , then product (D) MUST equal 15 g Hence 40 g + 15 g = 55 g,
Yes, the reactants must be soluble.
given the law of conservation of mass, we now know that the mass of the reactants must equal the mass of the product.
The reactants and the products must contain the same numbers of the same types of atoms, that is, atoms with the same atomic number, and either the products must contain at least one type of chemical bond distinct from any chemical bond in the reactants or the reactants must contain at least one type of chemical bond not found in the products.
The reaction quotient is the ratio of products to reactants not at equilibrium. If the system is at equilibrium then Q becomes Keq the equilibrium constant. Q = products/reactants If Q < Keq then there are more reactants then products so the system must shift toward the products to achieve equilibrium. If Q > Keq then there are more products than reactants and the system must shift toward the reactants to reach equilibrium.
in order for reactants to be changed into products, there needs to be a chemical change.
becaus it not about it its whats in it teee
The main component of wood is cellulose made of carbon, oxygen, and hydrogen. The combustion formula is (C6H10O5)n + n6O2 -> n6CO2 + n5H2O + energy ; where n is an positive integer. The energy produced in the equation is used mainly as thermal energy. The energy comes from the net change in bond energies. Since there is more bond energies in the reactants than the products, energy is released. The conservation of energy must maintain equal amounts of energy before and after a reaction.
The reactants must be balanced correctly with reactants.
Activation energy is the distance from the reactants to the top of the "hill."
This is a very general statement, and the answer is no. However, the mass of the reactants must be equal to the mass of the products, under the law of conservation of mass.
The mass of reactants is equal to the mass of products.
The number of atoms for reactants and products must be equal.
The mass of reactants must be equal to the mass of products.
The Law of Conservation of Mass applies. The total mass of all the reactants MUST equal the total mass of all the products, The individual comoounds may vary. e,g, A + B = C + D 25 g (A) + 30g (B) = 55 g of reactants. So the total mass of the products MUST equal 55 g. However, product (C) may have a mass of 40g , then product (D) MUST equal 15 g Hence 40 g + 15 g = 55 g,