A salt bridge will allow for the completion of a circuit in an electrochemical cell.
To complete the internal circuit by migration of ions.
A complete electric circuit is basically an electric circuit in which the electrons flow from negative terminal to positive terminal without any disturbance. The switch has to be closed in order for this to work otherwise, the flow will be broken.
circuit is the complete path of an electric current including the source of electric energy.
No. Electrodes are the positive and negative terminals in and open circuit. A conductor is a substance that an electric current will pass through. Electrodes are usually made of a conductor.
Voltage causes current to flow in an electric circuit.
I guess Electric Circuit....
To complete the internal circuit by migration of ions.
When an electric cell is a part of a complete electric circuit, the chemical energy of its chemical is converted in to electrical energy.
A complete electric circuit is basically an electric circuit in which the electrons flow from negative terminal to positive terminal without any disturbance. The switch has to be closed in order for this to work otherwise, the flow will be broken.
circuit
A closed circuit.
yes
circuit is the complete path of an electric current including the source of electric energy.
if an electric circuit has potential difference. Electricity will flow only if an electrical circuit is closed.
Yes, provided there is no breakage in the circuit (the water is completely intact from electrode to electrode) and the water has some salt impurity (there is some salt dissolved in it).
Terminal
You need a source of electrical potential difference, also known as voltage (which is the technical term for what for you call "electric pressure"). The easiest and most common voltage source is a household battery. Hook up the positive electrode of the battery using a conductor (eg. a copper wire) to one end of your circuit and the negative electrode to the other end, and voila, you'll have electric current flowing through your circuit.