CO2 + C → 2CO Carbon dioxide combines with carbon to form carbon monoxide (in the laboratory) by passing CO2 over heated charcoal. In the environment, it is formed by incomplete oxidation of hydrocarbons.
The products of the reaction that forms ammonia (NH3) are nitrogen and hydrogen. The balanced chemical equation for this reaction is N2 + 3H2 -> 2NH3.
The term hydrocarbon does not refer to one specific chemical, rather, it refers to a large number of different chemicals which are made out of the elements hydrogen and carbon (methane, propane, octane, acetylene, benzene, etc., are all hydrocarbons). In order to write a balanced chemical equation, we would have to know specifically which hydrocarbon was part of the reaction.
A reactant is something that reacts with another thing(s) in a word equation to make something else (the things made are the 'products'). So an example is:CARBON + OXYGEN -> CARBON DIOXIDE + WATERCarbon and oxygen are the reactants and carbon dioxide and water are the products.This word equation as a symbol equation is:C + O2 -> CO2 + H20
APEX:)))) --Add all the elements togetherSubtract the total amount of elements from the products
Fe3O4 is the mineral magnetite, with aproper chemical name of Fe(II, III) oxide. it exhibits ferrimagnetism. It has iron atoms as FeII and FeIII. An old way of writing it was FeO.Fe2O3 The balanced equation for production from the elements is :- 3Fe + 2O2 -> Fe3O4 Commercially it is made by for example redung Fe2O3 with CO 3Fe2O3 + CO = 2Fe3O4 +CO2
A balanced chemical equation is essential for all calculations involving amounts of reactants and products because it provides the stoichiometric ratios needed to determine the amounts involved in the reaction. Without a balanced equation, accurate calculations cannot be made.
Proteins have a very complicate chemical formula but not a "balanced chemical equation".
The products of the reaction that forms ammonia (NH3) are nitrogen and hydrogen. The balanced chemical equation for this reaction is N2 + 3H2 -> 2NH3.
Reactants are the starting materials that undergo chemical changes to form products in a reaction. Reactants are consumed during the reaction, while products are the new substances formed. The number of reactant molecules generally equals the number of product molecules in a balanced chemical equation.
A balanced equation does not have the same compounds on each side of the equation. A balanced equation has the same atoms on each side of the equation. You are taking some elements or compounds and creating different compounds. For example, you may be taking Iron Ore and Coal to produce Iron. 2FeO + C -> 2Fe + CO2. You take 2 molecules of Iron Oxide and one molecule of Carbon. You get 2 molecules of Iron and one molecule of Carbon Dioxide. That is how steel mills work. Look at your stove. It is made from iron. It began as Iron Ore and Carbon.
I'm pretty sure it is just NaAt as you have one Na and one At, so yeah, just NaAt. I could be wrong though.
The mixture of carbon monoxide and oxygen will react to form carbon dioxide. The balanced chemical equation for this reaction is: 2CO + O2 -> 2CO2 This reaction is exothermic, meaning it releases heat energy.
Lithium chloride is formed when lithium carbonate reacts with hydrochloric acid. The balanced chemical equation for this reaction is: Li2CO3 + 2HCl → 2LiCl + H2O + CO2.
In 1905, where it was published in Einstein's theory of relativity.
The reaction between sulfuric acid and sodium hydroxide would produce sodium sulfate and water. The balanced chemical equation for this reaction is H2SO4 + 2NaOH -> Na2SO4 + 2H2O.
The term hydrocarbon does not refer to one specific chemical, rather, it refers to a large number of different chemicals which are made out of the elements hydrogen and carbon (methane, propane, octane, acetylene, benzene, etc., are all hydrocarbons). In order to write a balanced chemical equation, we would have to know specifically which hydrocarbon was part of the reaction.
The balanced equation for the (spontaneous, explosive) decomposition of nitroglycerin: 4 C3H5N3O9 --> 12 CO2 + 10 H2O + 6 N2+O2