![]() Many are familiar with the impact that humidity can have upon static charge buildups. Looking to distance themselves from their like-charged neighbors, the strands of hair begin to rise upward and outward - a truly hair-raising experience. As the individual strands of hair become charged, they begin to repel each other. ![]() Being a conductor, the excess charge could flow to the human body and spread throughout the surface of the body, even onto strands of hair. When a student places their hand upon the static ball, excess charge from the ball is shared with the human body. The effects of excess charge on the body are often demonstrated using a Van de Graaff generator. Given the size of the human body, relative to the size of typical objects used in electrostatic experiments, it would require an abnormally large quantity of excess charge before its effect is noticeable. When the body acquires a static charge it has a tendency to distribute that charge throughout the surface of the body. The conductivity of a metal might be as much as a million trillion times greater than that of glass.Īlong the continuum of conductors and insulators, one might find the human body somewhere towards the conducting side of the middle. Metals would be placed near the most conductive end and glass would be placed on the opposite end of the continuum. Those materials that are super conductive (known as superconductors) would be placed at on end and the least conductive materials (best insulators) would be placed at the other end. It is more appropriate to think of materials as being placed somewhere along a continuum. The division of materials into the categories of conductors and insulators is a somewhat artificial division. Examples of insulators include plastics, Styrofoam, paper, rubber, glass and dry air. The cups also serve as handles when it becomes necessary to move the cans around on the table.Įxamples of conductors include metals, aqueous solutions of salts (i.e., ionic compounds dissolved in water), graphite, and the human body. The cups serve as insulators, preventing the pop cans from discharging their charge. If charging experiments are performed with aluminum pop cans, then the cans should be mounted on top of Styrofoam cups. The insulator serves as a handle for moving the conductor around on top of a lab table. This arrangement also allows for a student (or teacher) to manipulate a conducting object without touching it. This arrangement of a conductor on top of an insulator prevents charge from being transferred from the conductive object to its surroundings. Conductive objects are often mounted upon insulating objects. While insulators are not useful for transferring charge, they do serve a critical role in electrostatic experiments and demonstrations. #Torque diagrams free#The particles of the insulator do not permit the free flow of electrons subsequently charge is seldom distributed evenly across the surface of an insulator. If charge is transferred to an insulator at a given location, the excess charge will remain at the initial location of charging. In contrast to conductors, insulators are materials that impede the free flow of electrons from atom to atom and molecule to molecule. Conductors allow for charge transfer through the free movement of electrons. The transfer of charge between objects occurs more readily if the second object is made of a conducting material. ![]() If a charged conductor is touched to another object, the conductor can even transfer its charge to that object. Since conductors allow for electrons to be transported from particle to particle, a charged object will always distribute its charge until the overall repulsive forces between excess electrons is minimized. ![]() The distribution of charge is the result of electron movement. ![]() If charge is transferred to the object at a given location, that charge is quickly distributed across the entire surface of the object. An object made of a conducting material will permit charge to be transferred across the entire surface of the object. Conductors are materials that permit electrons to flow freely from particle to particle. The behavior of an object that has been charged is dependent upon whether the object is made of a conductive or a nonconductive material. ![]()
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