what is the difference betven macell and matel
Answers
Answer:
Using chemical reactions to produce electricity is now a priority for many researchers. Being able to adequately use chemical reactions as a source of power would greatly help our environmental pollution problems. In this section of electrochemistry, we will be learning how to use chemical reactions to produce this clean electricity and even use electricity to generate chemical reactions. In order to induce a flow of electric charges, we place a strip of metal (the electrode) in a solution containing the same metal, which is in aqueous state. The combination of an electrode and its solution is called a half cell. Within the half cell, metals ions from the solution could gain electrons from the electrode and become metal atoms;or the metal atoms from the electrode could lose electrons and become metals ions in the solution.
Introduction
We use two different half cells to measure how readily electrons can flow from one electrode to another, and the device used for measurement is called a voltmeter. The voltmeter measures the cell potential, denoted by Ecell, (in units of Volts, 1V=1J/C), which is the potential difference between two half cells. The salt bridge allows the ions to flow from one half cell to another but prevents the flow of solutions.
img6_electrolyticcell.jpg
As indicated in the diagram, the anode is the electrode whre oxidation occurs; Cu loses two electrons to form Cu+2. The cathode is the electrode where reduction occurs; Ag+ (aq) gains electron to become Ag(s). As a convenient substitution for the drawing, we use a cell diagram to show the parts of an electrochemical cell. For example above, the cell diagram is :
Zn(s) | Zn2+ (aq) || Cu2+ (aq)| Cu(s)
oxidation- (half-cell) (salt bridge) (half-cell)-reduction
Where we place the anode on the left and cathode on the right, "|" represents the boundary between the two phases, and "||" represents the salt bridge. There are two types of
An electrolytic cell is a cell which requires an outside electrical source to initiate the redox reaction. The process of how electric energy drives the non-spontaneous reaction is called electrolysis. Whereas the galvanic cell used a redox reaction to make electrons flow, the electrolytic cell uses electron movement (in the source of electricity) to cause the redox reaction. In an electrolytic cell, electrons are forced to flow in the opposite direction. Since the direction is reversed of the voltaic cell, the E0cell for electrolytic cell is negative. Also, in order to force the electrons to flow in the opposite direction, the electromotive force that connects the two electrode-the battery must be larger than the magnitude of E0cell. This additional requirement of voltage is called overpotential.
Electrolytic cell for the example above:
Oxidation: Cu(s) → Cu2+ (aq)+2e- (anode)
Reduction: Zn2+ (aq)+2e- → Zn(s) (cathode)
(Nonspontaneous redox reaction absorbs energy to drive it; The surroundings do work on the system. )
Galvanic: turns chemical energy into electrical energy
Electrolytic Cell: turns electrical energy into chemical energy
The most common form of Electrolytic cell is the rechargeable battery (cell phones, mp3's, etc) or electroplating. While the battery is being used in the device it is a galvanic cell function (using the redox energy to produce electricity). While the battery is charging it is an electrolytic cell function (using outside electricity to reverse the completed redox reaction).
Inert & Active Electrode
An inert electrode is a metal submerged in an aqueous solution of ion compounds that transfers electrons rather than exchanging ions with the aqueous solution.
mark me as brainilest