They are the two electrodes: anode and cathode.
These are the electrodes.
in metals free electrons are responsible while in electrolysis free ions are moved and generally move with slow speed
An alloy is a mixture of two metals
Nothing.The fruit does not generate the electricity. The differing electrochemical potentials of the metals used generate the electricity; the fruit is just there to provide a conductive path and some electrolytes.
To stop electrolytic action causing corrosion. Dissimilar metals (especially steel and aluminium) form a battery when wetted with water. This battery will cause a small current flow in the metals which will then eat away at the aluminium. Coating one or the other components, provides an insulator, which stops the battery forming.
Sensors based on solid electrolytes have several advantages in the processing of molten metals. The conductivities of solid electrolytes increase with increasing temperature, so the high operating temperature required during the processing of molten metals is well-suited to solid electrolyte based sensors. A magnet is a material or object that produces a magnetic field. They offer us good help helping us separating metals from the trash.
These are the electrodes.
They are the two electrodes: anode and cathode.
They are the two electrodes: anode and cathode.
They are the two electrodes: anode and cathode.
They are the two electrodes: anode and cathode.
No. Metals are not electrolytes.
They are the two electrodes: anode and cathode.
The anode and the cathode are the metal components that are in contact with the electrolyte in a battery.
In water there is only one strong base: hydroxide (OH-).But only the dissolvable hydoxides (of alkali metals: NaOH, KOH etc.) are strong electrolytes.
In ordinary alkaline batteries it is potassium hydroxide, sometimes called potash or potassium lye.Other battery chemistries may contain a different alkali, a salt, or an acid.For example a battery used in most modern US nuclear weapons is called a thermal battery and uses a salt as the electrolyte. When the weapon is fired a heat source rapidly heats the battery, melting the salt and activating the battery powering up the weapon's electronics. Such batteries have an almost infinite shelf life.
Strong electrolytes completely ionize when dissolved. Some examples of strong electrolytes include sodium chloride, nitric acid, chloric acid, and calcium chloride.
These salts are weak electrolytes: examples are acetates, formates etc. of alkali metals.