The products will also have one atom of S (silicon) and four of O (oxygen) because the number of atoms is not changed, only their chemical combinations.
The products will also have one atom of S (silicon) and four of O (oxygen) because the number of atoms is not changed, only their chemical combinations.
If one knows the mole ratio of a reactant and product in a chemical reaction one can
One S atom and four O atoms
I know that this probably isn't the answer that you were looking for but its a start the answer to this question is one of four different answers choose the one that you think is right. A) The same as the number of atoms in the reactants B) Less than the number of atoms in the reactants C) Greater than the number of atoms in the reactants D) The same as the number of molecules in the reactants
Regarding the oxidation states of the atoms in the tetrathionate ion: The tetrathionate polyatomic ion is made of four sulfur atoms, each with an oxidation number of +1, and six oxygen atoms each with an oxidation number of -1. Note, this is one of the rare exceptions to the 'rule' that oxygen normally has a minus two oxidation number. Other -1 oxygen compounds are the peroxides. An interesting half reaction is the oxidation of two thiosulfate ions to tetrathionate, in which sulfur has an oxidation number of +2 in the reactant and +1 in the product. Oxygen has an oxidation number of -2 in the reactant, and -1 in the product. 2S2O3-2 ----> S4O6-2 + 2 e-
The products will also have one atom of S (silicon) and four of O (oxygen) because the number of atoms is not changed, only their chemical combinations.
The products will also have one atom of S (silicon) and four of O (oxygen) because the number of atoms is not changed, only their chemical combinations.
The products will also have one atom of S (silicon) and four of O (oxygen) because the number of atoms is not changed, only their chemical combinations.
Catalysis Nature of. Reactant Temperature Concentration
If one knows the mole ratio of a reactant and product in a chemical reaction one can
One S atom and four O atoms
The dominant nuclear reaction in the Sun is the proton-proton chain reaction, with the net reaction being four hydrogen atoms turning into a helium atom (actually, it's too hot for atoms to exist in the core of the Sun where this happens, and really what happens is that four hydrogen nuclei turn into a helium nucleus plus two positrons, two electron neutrinos, and some gamma radiation).
Two water molecules and a release of energy. This is how fuel cells work.
Atoms are very very very small and are made up of electrons, protons, and neutrons. Neutrons and protons make up the nucleus of the atom, and electrons spin rapidly around the nucleus. Millions of millions of atoms make up an element.
Balancing Chemical Equations is absolutely essential if you want to determine quantities of reactants or products. An unbalanced chemical equation gives only the identify of the beginning reactants and the final products using the appropriate formulas as well as the conditions of temperature, physical state, and pressure conditions under which the reaction is to operate under. However an unbalanced equation can say nothing about the quantities involved until the equation has been balanced. A balanced equation assures that the conservation law of matter is obeyed. The total mass of reactants must equal the total mass of products. A balanced equation tells you the proportional quantities of each substance involved.
I know that this probably isn't the answer that you were looking for but its a start the answer to this question is one of four different answers choose the one that you think is right. A) The same as the number of atoms in the reactants B) Less than the number of atoms in the reactants C) Greater than the number of atoms in the reactants D) The same as the number of molecules in the reactants
The chemical reaction is:2 AgNO3 + Na2S = 2 NaNO3 + Ag2S(s)