because of the presence of charge carriers called ions in liquids.
in the chemical equations zn 2hcl znci2 h2 the reations are
Electrolysis is a process that uses electric current to break chemical bonds, typically in compounds dissolved in water. It involves the passage of current through an electrolyte to drive a non-spontaneous chemical reaction, causing the compound to decompose into its constituent elements.
It is electrolysis becouse its a chemical reaction in which an electrical current is used to decompose a compound
It's an example of electrolysis. Not unwanted hair removal, but that does use the same process. Electrolysis is the process of breaking down compounds by running an electric current through them.
electrolysis
Because that's not what electrolysis is about. From Wikipedia: "...The key process of electrolysis is the interchange of atoms and ions by the removal or addition of electrons from the external circuit..." When electrons just pass through a metal, no atoms or ions are exchanged - only the electrons.
This process is known as electrolysis.
This is electrolysis of a molten compound.
The particles that carry electric current through metal wires in electrolysis are electrons. Electrons are negatively charged particles that flow from the negative terminal of the power source to the positive terminal, creating an electrical circuit that drives the electrolysis process.
The process that decomposes water into hydrogen and oxygen gas is called electrolysis. It involves passing an electric current through water to split it into its constituent elements.
To strip hydrogen from water, a process called electrolysis is used. In electrolysis, an electric current is passed through water to split it into hydrogen and oxygen gases. The hydrogen gas is collected at the cathode while the oxygen gas is collected at the anode.
In the process of electrolysis, current can flow through a liquid because the liquid contains ions that can move and carry charge. When an electric potential is applied across the electrodes in the liquid, the ions migrate towards the oppositely charged electrode, allowing for the flow of current.