depends upon what the catalyst is used on such as H2SO4 is used generally for substitution reactions which require sulfuric acid to convert and supplement hydrogen into the reaction for the product to take place.
Hydrogen and fluorine are the two elements that make up hydrogen fluoride (HF).
Calcium (Ca) and Oxygen (O) are the two elements that make up calcium oxide.
The elements with atomic numbers from 58 to 71 are called the lanthanides. They are a group of metallic elements that have similar chemical properties due to their electron configurations. The lanthanides are commonly used in various applications such as in the production of electronic devices and catalysts.
The two elements that make up most of the oceans are hydrogen and oxygen, forming water molecules.
There is a total of 17 elements in those groups.
False . Catalysts can be many things ; enzymes and transition elements and their compounds , for example .So Enzymes are always catalysts but Catalysts are NOT always enzymes .
Yes, elements in the halogen group, such as chlorine and iodine, can act as catalysts in chemical reactions. They can participate in reactions by providing an alternative pathway with lower activation energy, speeding up the reaction without being consumed themselves.
No, it is impossible.
No
no, but different weapons require different catalysts
Typically, noble gases are not considered catalysts because they do not actively participate in chemical reactions by forming bonds with other molecules. They are inert gases that do not readily react with other elements under normal conditions, which limits their potential catalytic activity.
Colored ions in solution, multiple positive oxidation states.
because of partially filled d orbitol
No, enzymes are not called elements. Enzymes are biological molecules that act as catalysts to speed up chemical reactions in living organisms. Elements are the basic building blocks of matter, such as oxygen, carbon, and hydrogen.
but all catalysts aren't enzymes...
Transition metals are commonly used as catalysts due to their ability to easily change oxidation states, which allows them to participate in redox reactions. Their electron configuration also allows them to form stable complexes with reactants, facilitating the reaction process. Additionally, transition metals have variable coordination geometry and ligand exchange rates, making them versatile catalysts for a wide range of reactions.
There are four elements that make a healthy community. They are community glue, good process and communication, effective project management, and a good governance. These all help make a community healthy for all who live in it.