Potential Of Coconut Water as Source of Electricity
Chapter 1
The Problem and the Background of the Study
A. Introduction
One of the major problems in our country is energy shortage. There are many methods and proposals on how to conserve it such as the use of batteries. One of these is an electrolytic cell. It contains an electrolyte through which an externally generated electric current is passed by a system of electrodes (electrically positive electrode is called the anode and the negative electrode the cathode) in order to produce an electrochemical reaction. Such a reaction involves the transfer of electrons between two electrodes immersed in an ion-conducting medium – the electrolyte. A batter unit is often referred to as a cell.
Electrolytic cells have many practical uses, including the recovery of pure metal from alloys, the plating of one metal with another, and the manufacture of chlorine and sodium hydroxide.1
Coconut (Cocos nucifera) water contains a variety of nutrients including vitamins, minerals, antioxidants, amino acids, enzymes, growth factors, and other nutrients. Coconut water is a good source of the major minerals like magnesium, calcium, and potassium. It is particularly rich in potassium, an essential nutrient; one 8-ounce cup of coconut water has more potassium than a banana. It also contains a variety of trace elements such as zinc, selenium, iodine, sulfur, manganese, boron, molybdenum, and others. These are derived from volcanic soils and seawater from which the coconut palms are grown. All of these minerals are in the form of electrolytes so they are easily absorbable by the human body. Many of the health benefits attributed to coconut water can be traced to its mineral content.2 With this information, the researchers decided to test if coconut (Cocos nucifera) water is feasible as an electrolyte to conduct electricity to contribute for lessening the energy shortage that we had encountered.
B. Statement of the Problem
This study aims to know if coconut (Cocos nucifera) water can be
The Problem and the Background of the Study
A. Introduction
One of the major problems in our country is energy shortage. There are many methods and proposals on how to conserve it such as the use of batteries. One of these is an electrolytic cell. It contains an electrolyte through which an externally generated electric current is passed by a system of electrodes (electrically positive electrode is called the anode and the negative electrode the cathode) in order to produce an electrochemical reaction. Such a reaction involves the transfer of electrons between two electrodes immersed in an ion-conducting medium – the electrolyte. A batter unit is often referred to as a cell.
Electrolytic cells have many practical uses, including the recovery of pure metal from alloys, the plating of one metal with another, and the manufacture of chlorine and sodium hydroxide.1
Coconut (Cocos nucifera) water contains a variety of nutrients including vitamins, minerals, antioxidants, amino acids, enzymes, growth factors, and other nutrients. Coconut water is a good source of the major minerals like magnesium, calcium, and potassium. It is particularly rich in potassium, an essential nutrient; one 8-ounce cup of coconut water has more potassium than a banana. It also contains a variety of trace elements such as zinc, selenium, iodine, sulfur, manganese, boron, molybdenum, and others. These are derived from volcanic soils and seawater from which the coconut palms are grown. All of these minerals are in the form of electrolytes so they are easily absorbable by the human body. Many of the health benefits attributed to coconut water can be traced to its mineral content.2 With this information, the researchers decided to test if coconut (Cocos nucifera) water is feasible as an electrolyte to conduct electricity to contribute for lessening the energy shortage that we had encountered.
B. Statement of the Problem
This study aims to know if coconut (Cocos nucifera) water can be