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The Leyden jar, or Leiden jar, is a device that "stores" static electricity between two electrodes on the inside and outside of a jar. It was invented in 1745 by Pieter van Musschenbroek (1692–1761), in Leiden, The Netherlands. It was the original form of the capacitor. The Leyden jar was used to conduct many early experiments in electricity, and its discovery was of fundamental importance in the study of electricity. Previously, researchers had to resort to insulated conductors of large dimensions to store charge. The Leyden jar provided a much more compact alternative.

Contents 1 Description 2 History 3 The "dissectible Leyden jar" myth 4 See also 5 References 6 External links

[edit] Description

A typical design consists of a glass jar with conducting metal foil coating the inner and outer surfaces. The foil coatings stop short of the mouth of the jar, to prevent the charge from arcing between the foils. A rod electrode projects through the mouth of the jar, electrically connected by some means (usually a chain) to the inner foil, to allow it to be charged. The jar is charged by an electrostatic generator, or other source of electric charge, connected to the inner electrode while the outer foil is grounded. The inner and outer surfaces of the jar store equal but opposite charges.

The original form of the device was just a glass bottle partially filled with water, with a metal wire passing through a cork closing it. The role of the outer plate was provided by the hand of the experimenter. Soon it was found that it was better to coat the exterior of the jar with metal foil (Watson, 1746), leaving the (accidentally) impure water inside acting as a conductor, connected by a chain or wire to an external terminal, a sphere to avoid losses by corona discharge. It was initially believed that the charge was stored in the water. Benjamin Franklin investigated the Leyden jar, and concluded that the charge was stored in the glass, not in the water, as others had assumed. In general the charge may be stored in the conductors, on the surface along the inward surfaces, or on the surface of the dielectric if these are separated by a thin air gap. The charge leaks to the surface of the dielectric if contact is imperfect and the electric field is intense enough. Because of this, the fluid inside can be replaced with a metal foil lining. Early experimenters found that the thinner the dielectric, the closer the plates, and the greater the surface, the greater the amount of charge that could be stored at a given voltage.

Further developments in electrostatics revealed that the dielectric material was not essential, but increased the storage capability (capacitance) and prevented arcing between the plates. Two plates separated by a small distance also act as a capacitor, even in vacuum.

Originally, the amount of capacitance was measured in number of 'jars' of a given size, or through the total coated area, assuming reasonably standard thickness and composition of the glass. A typical Leyden jar of one pint size has a capacitance of about 1 nF.

[edit] History

The ancient Greeks already knew that pieces of amber could attract light particles after being rubbed. The amber becomes electrified by triboelectric effect, mechanical separation of charge in a dielectric. The Greek word for amber is ηλεκτρον ("elektron") and is at the origin of the word "electricity".

Around 1650, Otto von Guericke built a crude friction generator — a sulphur ball that rotated on a shaft. When Guericke held his hand against the ball and turned the shaft quickly, a static electric charge built up. This experiment inspired the development of several forms of "friction machines", that greatly helped in the study of electricity.

The Leyden jar was first invented by German scientist and jurist Ewald Georg von Kleist, who in 1745 found a method of storing large amounts of electric charge. He lined a glass jar with silver foil, and charged the foil with a friction machine. Kleist was convinced that a substantial charge could be collected when he received a significant shock from the device. The effects of this Kleistian jar were independently discovered about the same time by Dutch scientist Pieter van Musschenbroek at the University of Leiden. Musschenbroek communicated on it with the French scientific community where it was called the Leyden jar.

Daniel Gralath was the first to combine several jars in parallel into a "battery" to increase the total possible stored charge. ^[1][2] By the middle of the 19th century, the Leyden jar had become common enough for writers to assume their readers knew of and understood its basic operation.^[3] By the early 20th century, improved dielectrics and the need to reduce their size and inductance for use in the new technology of radio caused the Leyden jar to evolve into the modern compact form of capacitor.

[edit] The "dissectible Leyden jar" myth

A popular, but possibly misleading, demonstration with a Leyden jar involves taking one apart after it has been charged and showing that the energy is stored on the dielectric, not the plates. The first documented instance of this demonstration is in a 1749 letter by Benjamin Franklin. ^[4]

The jar in the demonstration is constructed out of a dielectric cup nested between two fairly snugly fitting metal cups. When the jar is charged with a high voltage and carefully dismantled, it is discovered that all the parts may be freely handled without discharging the jar. If the pieces are re-assembled, a large spark may still be obtained.

When not properly explained, this promotes the myth that capacitors store their charge inside their dielectric. However this phenomenon is a special effect caused by the high voltage on the Leyden jar. In capacitors generally, the charge is not stored in the dielectric, but on the inside surfaces of the plates, as can be seen from the fact that capacitors can function with a vacuum between their plates. In the dissectible Leyden jar, charge is transferred to the surface of the dielectric cup by corona discharge when the jar is disassembled; this is the source of the residual charge after the jar is reassembled. Handling the cup while disassembled does not provide enough contact to remove all the surface charge.

[edit] See also

• Jar (unit of capacitance)

[edit] References

1. ^ The Leyden Jar Discovered — World Wide School
2. ^ The term "battery" was coined by Benjamin Franklin, who likened it to a battery of cannon (cannons grouped in a common place). The term was later used for arrangements of multiple electrochemical cells, the modern meaning of battery.
3. ^ The Leyden Ball
4. ^ Letter IV: Benjamin Franklin to Peter Collinson, April 29, 1749 (Bigelow vol II p. 237-253) (PDF containing extracts)

[edit] External links

• Media related to Leyden jars at Wikimedia Commons
• Leyden Jar - Interactive Java Tutorial National High Magnetic Field Laboratory