because chloride ions being negatively charged have got a tendency to get attracted to positive ions( follows from coloumbs law) and since positive electrode contains positive ions so chloride free ions in solution gets attracted to the positive electrode....
cations in a compound are always positive.
Attracted towards the grid and pass through it easily towards the anode, providing a controlled current flow. This configuration helps in efficiently controlling the flow of electrons in the diode and preventing unwanted electron emission.
At the positive electrode (anode) of the electrolysis of molten lead bromide, bromine gas is produced. This is because bromine ions are attracted to the positive electrode, where they are oxidized to form bromine gas.
If a solution of NaI is electrolyzed, iodine is formed at the anode and hydrogen gas at the cathode. In the instance if it is the molten liquid of NaI, it would emit sodium from the sodium at the cathode and iodine at the anode.
Cations are positively charged ions, and they are attracted to the cathode in an electrolytic cell. At the cathode, cations gain electrons and get reduced.
In an aqueous solution, cations are attracted toward the negatively charged cathode. This electrolytic attraction is due to the cations being positively charged and being attracted by the negative charge of the cathode.
anions cos there the opposite
Because they are self-grounding. There is both an anode and an electrode in the barb set, so the charge is attracted to the anode, and doesn't need to be attracted to the ground.
When an atom loses an electron, it becomes a positively charged ion, called a cation.In chemist Michael Faraday's nomenclature, cations were named because they were attracted to the cathode in a galvanic device and anions were named due to their attraction to the anode.
When an atom loses an electron, it becomes a positively charged ion, called a cation.In chemist Michael Faraday's nomenclature, cations were named because they were attracted to the cathode in a galvanic device and anions were named due to their attraction to the anode.
Calcium cations are most attracted to negatively charged materials such as the following: Carbonates Oxides Phosphates Sulfates ChloridesCalcium cations are also attracted to certain organic acids such as citric acid lactic acid and tartaric acid.
The salt bridge allows cations to move in the galvanic cell. Electrons move from the anode to the cathode, leaving cations behind. The salt bridge allows for a balance of cations and anions to occur to continue the flow of electrons.
Anode is positive electrode which attracts the negative anions while cathode is the negative electrode which attracts the positive cations during electrolysis.
A positive ion is called a cation. It forms when an atom loses one or more electrons, resulting in a net positive charge. Cations are attracted to anions, which are negative ions, due to their opposite charges.
Cathode electrons are attracted to the anode because of the electric field established between the two electrodes. Electrons are negatively charged particles and are attracted to the positively charged anode through the electric field. This movement of electrons from cathode to anode constitutes an electric current in a circuit.
Anode is the positive electrode while cathode is the negative electrode. Negative ions(anions) travel towards the anode(hence the name) Positive ions(cations) travel towards the cathode(hence the name) Example for anode:Copper Example for cathode:Zinc