A battery
The voltaic pile or "battery".
Allassandra Volta invented the first chemical cell battery, which was originally called a voltaic pile.
Constructed of alternating discs of zinc and copper, with pieces of cardboard soaked in brine between the metals, the voltaic pile produced electrical current. The metallic conducting arc was used to carry the electricity over a greater distance. Alessandro Volta's voltaic pile was the first battery that produced a reliable, steady current of electricity.
The Voltaic Pile consisted of discs of copper and zinc separated by discs of paper or cardboard (soaked in salt water). Attached to the top and bottom of this "Pile" was a copper wire. When Volta closed the circuit, electricity flowed through the pile.
Alessandro Volta was an Italian physicist (1745 - 1827) who invented the first electric battery (also known as the voltaic pile battery) in 1799. His work is still remembered today through the use of his family name Volta, which is used in the electrical term Volt.
The person who discovered the voltaic pile was Walter Luchay.
A "Volta's Pile" or "Voltaic Pile" consisted of discs of zinc and copper with pieces of cardboard soaked in brine between the metal plates. It was the first "wet cell battery". This principle is used similarly today but the metals and fluids are quite different. The first electrical circuit was created by an Italian physicist named Luigi Galvani in the 1780s. He discovered a frog's leg would twitch when touched with two pieces of metal. His work was taken up by Professor Alessandro Volta who first invented the "Voltaic Pile".
the Voltaic Pile was important because is was the start of electricity for the world.
yes
Alessandro Volta
1802
Alessandro Volta
because it wanted things to work
The voltaic pile or "battery".
It means, "pile." It could mean a pile of wool, a pile driven into the ground, a Voltaic pile (battery), or an atomic pile (nuclear reactor).
The voltaic cell has but one electolyte, see Voltaic Pile. The Daniell cell is an improvement on the voltaic cell using two electolytes and solves the problem with polarization.
temperature sensorAnswerA thermo-voltaic junction, or thermo-voltaic pile, is used for this purpose. A thermo-voltaic junction consists of two dissimilar metals connected together; as the temperature increases, an increasing potential difference arises between the two metals. A thermo-voltaic 'pile' is a number of thermo-voltaic 'junctions' connected in series.