Various types of electric arcs differ from each other in two respects: the pressure at which they operate and the materials of which they are made. Electric arcs can be enclosed in glass or plastic containers from which air has been pumped out (vacuum arcs) or to which air or some other gas has been added (high pressure arcs).

Electric arcflash

The color of flame arcs depends on the material of which the electrodes are made. For example, calcium arcs give off a red glow, while barium arcs give off a green glow. In some flame arcs, the radiation produced is outside the visible range. Mercury arcs at high pressure produce ultraviolet radiation. They also can produce visible light in a low pressure tube if the internal walls of the tube are coated with a fluorescent material known as a phosphor. The phosphor emits visible light when struck by ultraviolet radiation from the mercury.

Electric arcplasma

The light and sound associated with lightning are evidence of an important change that occurs in the gas between electrodes. The flow of electric current heats the gas to high temperatures. The light associated with lightning is evidence of that change. The clap of thunder is another sign of the change—the heated air around the lightning bolt expands rapidly, producing a sound wave.

One example of an electric arc is a lightning bolt. In nature, two clouds can act as electrodes, or electric current may flow between a cloud and Earth's surface. In either case, current flows through the air, ionizing molecules of oxygen, nitrogen, and other gases in the atmosphere.

Is electrical arcing dangerous

Many types of arcs exist, each with its own applications. For example, arc welders are used for welding (where a metal is fused and added in a joint). In some cases, the arc's only function is to supply heat. In other cases, the metal from one electrode may actually be used in forming the weld. Plasma torches are used for cutting, spraying, and gas heating. Plasma is a term used for hot, ionized gases. Cutting a metal with a plasma torch may be done by means of an arc formed between the metal itself and an electrode from the torch.

Illustration of an electric arc between two metals. (Reproduced by permission of Photo Researchers, Inc. )

Electric arcin welding

Electric arcs are often used as lamps because of the amount of light they produce. That light comes from hot, glowing electrodes (carbon arcs) and, sometimes, from heated gases (flame arcs). The carbon arc, in which two carbon rods serve as electrodes, was the first practical commercial lighting device. It remains one of the brightest sources of light and is still used in theater motion-picture projectors, large searchlights, and lighthouses. Flame arcs are used in color photography and in photochemical processes because they closely approximate natural sunshine. The carbon is saturated with chemicals that boil off easily. These chemicals become luminous when they evaporate and are heated by the arc.

Howelectric arcis produced

An electric arc is a device in which an electric current (a flow of electrons) is caused to flow between two points separated by a gas. The two points are called electrodes. The one from which the current originates is the cathode. The electrode toward which electrons flow is the anode. The term electric arc refers both to the device itself as well as to the electric discharge that takes place within the device. Arcs can make use of high, atmospheric, or low pressures and can contain a variety of gases. They have wide uses as luminous lamps; as furnaces; for heating, cutting, and welding; and as tools for certain kinds of chemical analysis.

Arcs can also be used in radio valves, such as those used in the early days of radio, and as a source of ions in nuclear reactors and thermonuclear devices (devices for controlling the release of nuclear power).

In an electric arc, the energy needed to produce ionization comes from an external source, such as an electric generator. An intense stream of electrons flows into the cathode and then across the gas-filled gap to the anode. As these electrons pass through the gas, they cause ionization. Ions formed in the process make the flow of current between electrodes even easier. For every gas, some minimum amount of energy is needed

Electric arcfurnace

[ See also Electricity ; Electronics ]

The light produced by an arc depends both on the material from which the electrodes are made and on the gas that separates them. Some electrodes have no function other than to conduct an electric current into and out of the arc. Other electrodes are chosen because they tend to vaporize when the arc is used, changing the discharge that is produced. Various gases are chosen for use in electric arcs because they too affect the discharges produced. For instance, each chemical element produces its own characteristic color when ionized.

The simplest electric arc consists of two electrodes made of a conducting material and situated a short distance from each other. Air is the gas used in this arc. This kind of electric arc was first studied by English physicist and chemist Humphry Davy (1778–1829) in 1808.

Electric arcpathfinder 2e

Gases are normally poor conductors of electricity. The atoms or molecules of which they consist usually contain no free electrons needed for a current to flow. That condition can change, however. If sufficient energy is supplied to the gas, its atoms or molecules will break apart (ionize) into charged particles. If a spark is passed through a container of oxygen gas, for example, oxygen molecules ionize to form some positively charged oxygen ions and some negatively charged oxygen ions. These charged particles then make it possible for the gas to become conductive.