No. Each reaction will generally have different elements.
use formulas to represent the substance involved in a reaction.
No. Enzymes are not permanently changed in the chemical reactions in which they are involved. After the reaction, they regain their original shape and are free to catalyze another of the same reaction.
No. Enzymes are not permanently changed in the chemical reactions in which they are involved. After the reaction, they regain their original shape and are free to catalyze another of the same reaction.
Balancing a chemical reaction ensures that the same number of each type of atom is present on both sides of the equation, satisfying the law of conservation of mass. This is important because it reflects the true stoichiometry of the reaction and allows for accurate calculations regarding the quantities of reactants and products involved.
This reaction does not involve a change in the atomic nucleus of the elements involved. The chemical reaction only rearranges the atoms to form new compounds while the elements themselves remain the same. Transmutation involves changing one element into another by altering the number of protons in the nucleus, which does not occur in the zinc-copper sulfate reaction.
The products and reactants of a chemical reaction are likely to have similar chemical properties and structures. This is because the reactants undergo a chemical transformation to form the products, so they often share similar elements, functional groups, or bonding arrangements.
Yes, a chemical equation shows the number of atoms of each element involved in a chemical reaction, including those gained, lost, or rearranged. The Law of Conservation of Mass states that mass is conserved in a chemical reaction, so the total number of atoms before and after the reaction must be the same.
Elements of the same group generally share the same number of valence electrons, which are the electrons in the outer energy level only. These are the electrons that participate in a chemical reaction, so elements in the same group behave similarly in chemical reactions, which makes predictions and generalizations possible.
Chemical change is when the composition of your elements or solution change. In a simple way to say it, it's when you no longer have the same elements or solution that you started with. You can determine if a reaction is chemical, by observing the chemical properties. Usually it's when there's a color change, a new substance formed, etc.. On the other hand, physical change is when the composition of your substance stay the same, but the physical properties change. For example, liquid water evaporate into H2O gas.
When elements combine chemically, they form compounds with unique chemical and physical properties different from the original elements. The atoms of the elements are rearranged to create new substances with distinct characteristics. This chemical reaction results in the creation of compounds with new chemical bonds.
No, oxygen is a chemical element, while oxidation is a chemical reaction that involves the loss of electrons by a substance. Oxygen is often involved in oxidation reactions, but they are not the same thing.
When compounds are joined through reactions, a chemical bond is formed. This bond holds the atoms together in the compound and determines its properties and behavior. Different types of chemical bonds can form depending on the elements involved in the reaction.