A synthesis reaction, also called a combination reaction.
A synthesis reaction, also called a combination reaction.
You think probable to a synthesis reaction.
A combination reaction.
another name for nuclear fission is: E=MC squared
Fusion.
false
fire
fire
In decomposition reaction, single reactant will breakdown to form two or more products.
A combination reaction is a reaction in which two elements (or other substances) combine to form a new compound.A combination reaction occurs when one reactant forms two or more products.
When a reactant breaks down and forms 2 or more products, the atoms are the same, but different bonds are formed. Atoms are not created nor destroyed during a chemical reaction. They are merely rearranged.
Two different answers:Yes, an exothermic reaction releases energy into its surroundings No, its products do NOT have more energy than the reactant(s)
The more reactant, the faster the reaction The less reactant, the slower the reaction hope that clears it up for you
Reactants (or 'substrates') are two or more elements/ compounds that chemically interact to form a new substance. They are the starting materials for a reaction and are always found at the left side of a chemical equations.A reactant is one of the inputs in a reaction, that get changedThe word reactant is used in chemistry. A substance that has a reaction and undergoes a change is considered reactant.
That's a decomposition reaction. One reactant, two (or more) simpler products.
The more reactant, the faster the reaction The less reactant, the slower the reaction hope that clears it up for you
It is synthesis since your adding them together other wise decomposition is breaking them apart
Decomposition reactions are those in which one reactant splits into two or more products. Only those decomposition reaction are redox reactions in which minimum one of the products is an element.Example-2 H2O ---> 2H2 + O2
No. New molecules will form, or a molecule will break down into its component atoms. A chemical reaction never creates or consumes atoms; it only changes how they are bonded to one another.
The reaction rate increases when reactant particles are able to collide more often and with more energy.