Lab Report Electrical Conductivity Introduction There are some substances that are capable of conducting electricity, and the reason they conduct electricity is because of the type of compound the substance is. Electrolytes or any ionic compound conduct electricity and nonelectrolytes do not conduct electricity. An Ionic compound is formed from the electrical attraction between anions and cations, typically a metal with a non-metal, except hydrogen.
When an ionic compound forms, the anion transfers an electron to the cation which creates an electrostatic bond and an electrically neutral compound. Also, they readily dissolve in aqueous solutions and are good conductors of heat and electricity. Further, ionic compounds can be classified as either strong conductors or weak conductors. In contrast, molecular compounds are formed from non-metals. Molecular compounds share electrons between atoms forming a covalent bond.
In general, molecular compounds do not dissolve readily in solution and are poor conductors of heat and electricity. They are classified as non-electrolyte compounds. The reason of why electrolytes or ionic compounds are supposed to conduct electricity is because of the charge of the molecule, ionic compounds can have either a really positive or a really negative charge. This charge in the molecule makes it easier to electrons to move from molecule to molecule; therefore an electric current is generated.
The Essay on Formal lab report on ionic and covalent compounds
This experiment was divided in four steps to find the electrical conductivity of covalent and ionic solutions. There were four unknown solutes A, B and C. Each had a specific weight and was dissolved in a certain amount of solute to form either the covalent or ionic solution. Covalent compounds are made up of molecules which are electrically neutral. Ionic compounds are composed of ions, which are ...
On the other hand, covalent compounds, either polar or non-polar, are not capable of conducting electricity. This is because they have more balanced charges and it is harder for electrons to move from one particle to another one. Also one has to take into account that when dealing with mixtures, if it contains one ionic compound and a covalent compound, its conductivity will be affected by the covalent compound and it probably won’t transmit an electric current. In this experiment, six different substances will be used in order to etermine their electrical conductivity. Objectives To know, determine and prove which substances are capable to conduct electricity and which substances can’t conduct electricity and if any of these six following substances can conduct electricity by submerging two copper wires connected to a battery that powers up a light bulb when electric current is present and the copper wire conduct it. Also being able to explain at the end the cause of why some substances were not capable to transmit an electric current while other substances could.
Material • 9V battery • 3 copper wires • 1 small light bulb • 7up • Physiological serum (Electrolytes) • Gatorade • Sucrose 1% • NaCl 10% • KCl 5% • 2 screws Method 1. Connect the copper wires to the battery and the light bulb, (first wire) one end goes to the battery and the other end is left aside, (second wire) one end goes to the battery and the other goes to the light bulb, (third wire) one end goes to a metal part next to the light bulb and the other end is left aside.
Then we put the screws on the ends that were left aside. 2. Gather the ends of the system to check if it works 3. Submerge the ends in the solutions of KCl, NaCl and Sucrose (one by one) 4. After trying with one solution, wash the endings in the glassed label as “water” and dry it with a napkin. 5. Change the solution, check the conductivity and repeat step 4. 6. After trying with KCl, NaCl and Sucrose, repeat step 4 but with Gatorade, 7up and the serum. Results SOLUTION |TYPE OF BOND |ELECTRICAL CONDUCTIVITY | |*KCl 5% |IONIC |WEAK | | | |(Electrolyte) | |*NaCl 10% |IONIC |WEAK | | | |(Electrolyte | |Sucrose |COVALENT |NONE | | | |(Non electrolyte) | |7up |COVALENT |NONE | | |(Non elecrolyte) | |Serum(electrolytes) |COVALENT |NONE | | | |(Non elecrolyte) | |Gatorade |COVALENT |NONE | | | |(Non elecrolyte) | *Sodium Chloride (NaCl) and Potassium Chloride presented formation of bubbles. Discussion/Conclusion “This practice was about knowing about which substances conduct electricity (electrolytes) and which ones don’t (non electrolytes) as well as knowing what happened with the substances that conducted electricity and with the ones that didn’t.
The Homework on Why Graphite (Carbon) Conducts Electricity
Chemistry Homework In general, carbon is a nonconductor. Graphite is one of the forms of solid carbon. In graphite, one of the outer electrons of the carbon atom is not involved in the crystal bonding of the solid. That electron is somewhat free to move, and graphite therefore can conduct an electrical current, but it conducts much more poorly than metals. Graphite is used to make carbon ...
Just two substances conducted electricity (NaCl and KCl) this happened because when they are dissolved in water the atoms that make up these substances come apart from each other and they start floating around individually, this permits the freely movement of ions. In contrast sucrose didn’t conduct electricity because it breaks up but in a different way; it breaks up into the individual molecules that make it up but these molecules don’t break up in the individual atoms, they stay as molecules and start floating. One of the strangest thing was that serum didn’t conduct electricity even though it contains electrolytes. It might be because one of the substances that it includes is sucrose which is a type of sugar. ” -Melissa Munoz ———————– UNIVERSIDAD AUTONOMA DE NUEVO LEON CENTRO DE INVESTIGACION Y DESARROLLO DE EDUCACION BILINGUE