The cathode, because it attracts cations.
The electrode connected to the negative terminal of a cell is called the cathode.
The negative electrode in a common flashlight battery is typically made of zinc.
No, the anode is the negative electrode in an electrochemical cell.
In a wet cell, such as a battery, the negative electrode is where oxidation occurs, releasing electrons. These electrons flow through an external circuit to the positive electrode. At the positive electrode, reduction occurs, and electrons are accepted back, completing the circuit.
The positive electrode in a battery is where the electrons are released during the chemical reaction, while the negative electrode is where the electrons are received. This flow of electrons creates an electric current that powers the device connected to the battery.
The Cathode is the negative electrode; the anode is the positive electrode
Cathode- is the negative electrode.Anode- is the positive electrode.
The letters EN , on a welding electrode , indicate "electrode negative" , that is the electrode is to be used with a DC current , in the negative position, or polarity.
The electrode connected to the negative terminal of a cell is called the cathode.
A positive electrode is a cathode. A negative electrode is an anode.An anode is positively charged, while a cathode is negatively charged.
The cathode.
The negative electrode in a common flashlight battery is typically made of zinc.
No, the anode is the negative electrode in an electrochemical cell.
Alkali metals have more negative electrode potential because they have a strong tendency to lose electrons, making it easier for them to be oxidized at the electrode surface. This electron-donating tendency results in a more negative electrode potential compared to other elements.
In a wet cell, such as a battery, the negative electrode is where oxidation occurs, releasing electrons. These electrons flow through an external circuit to the positive electrode. At the positive electrode, reduction occurs, and electrons are accepted back, completing the circuit.
The positive electrode in a battery is where the electrons are released during the chemical reaction, while the negative electrode is where the electrons are received. This flow of electrons creates an electric current that powers the device connected to the battery.
Negative ions go to a positive electrode.