An electrolyte is a conductor dissolved in water!
electrodes are the charged plates that transmit the electrons or electricity to the electrolyte. eg: Cu electrodes, Fe electrodes
electrolyte is the solution in which the electricity is passed through the electrodes
eg: Coppersulphate solution to complete up the circuit
Neutral electrolytes are a subset of electrolytes. A neutral electrolyte is an ionic chemical compound that upon dissolution in a protic solvent (e.g. water) yields an electrolyte solution with a neutral or close to neutral pH value. Sodium chloride is an example neutral electrolyte. Accordingly, acidic and basic electrolytes yield low- and high-pH electrolyte solutions, respectively.
An electrolyte is a conductor dissolved in water!
no, it is not a strong electrolyte. It is a weak electrolyte
difference between amphoteric solutions and neutral solutions
Acids - pH less than 7 Base - pH more than 7 Neutral - pH is 7
it is a strong electrolyte because it occurs in strong bases and that's why it is bonded between two different elments
When in doubt, look at the reactants that produce the substance. Potassium nitrate, KNO3, is produced in solution by mixing potassium hydroxide, KOH, and nitric acid, HNO3, which are both strong electrolytes, and so is potassium nitrate. Two strong electrolytes will produce a strong electrolyte, a weak and a strong electrolyte will produce a weak electrolyte, and two weak electrolytes will produce a weak electrolyte.
molecules
no, it is not a strong electrolyte. It is a weak electrolyte
difference between amphoteric solutions and neutral solutions
Electrolyte. sulphuric acid
1.6749x10-24
It keeps the electrolyte solutions neutral.
The difference between neutron are neutral, and electrons have a negative change too them. Neutron is a neutral particle that exists in the nucleus of an atom. The year when the neutron was founded was 1932.
As i know,neutral is the return path of current & ground is for any leakage current
Because there is a potential difference between the live and neutral wires.
difference in current between hot and neutral conductors
A 'voltage' is another name for a potential difference. As the name implies, a potential difference exists between two different points or, in the case of an electrical installation, between the line conductor and the neutral conductor. So the neutral does not 'import voltages'. Voltages exist between the line (hot) conductor and the neutral conductor.
- protons are positive and neutrons are neutral- a small difference of mass exist