hey [Music] in the 18th century electricity was just a curiosity but in the 19th century it became one of the most important tools not only of science but of industry and the crucial invention that caused that transformation was made just in the year 1800 by alessandro volta and it was of course the electric battery i wanted to bring in a car battery to show you this morning but when i went to the automobile showroom it turned out that all i had was a lemon so i thought i'd make a battery for you out of a lemon now if we're going to use this as a battery of course we have to have electrodes to take the electricity out with so i'll just put in a zinc nail like that and a copper nail like that now to show you that this really is a battery i'm going to connect it to that galvanometer or digital voltmeter right over there now watch when i connect it you'll see that it will read just a little bit under one volt the vault incidentally was named after alessandro giuseppe antonio anastasio volta because his full name was a little too long to use so they only used his last name and even that was too long so they shortened it to volt and by the way the galvanometer was named after giuseppe galvani and those two alessandro volta and giuseppe galvani are the principal characters in the story that we want to tell today in any case it would be nice to be able to do something more with our lemon battery than just connect the voltmeter across it for example it would be nice to be able to run this little electric motor with it i can try to do that by connecting the electric motor to my battery like this but if i do that and then close the switch absolutely nothing happens the reason for that is that although the lemon really is a battery it's not a very good battery it wasn't designed to be a battery it was designed to be a lemon what that means is that although current runs out of the lemon it doesn't run out fast enough to run the motor it runs out very very slowly but there's a cure for that all i have to do is to collect it store it up and i can store up the current in a leiden jar or in this modern day version of the leiden jar in a capacitor so what i'll do is first of all disconnect the motor from the battery for the moment and instead connect the lighten jar or capacitor to the battery now it'll take a while but as time goes on these will charge up and eventually the volt meter will reach the reading that it had before and when that happens i'll be able to run the motor from the lemon now that will take a while so we may as well go on with the story that we want to tell today which is how the electric battery actually works the electric battery it's been around since the 1800s in many containers and under a variety of circumstances but how does it actually work or not work as the case may be and root to the answer and this is true with any hot topic in science part of the fun is getting there [Music] and to understand how a battery really works one way to get started is to make a metal from scratch begin with a single positive ion that's an atom missing just one electron because it has a positive charge it creates the potential energy of attraction as shown here on the graph for the missing electron then place more ions side by side one next to another add just enough electrons to make an electrically neutral system [Music] then arrange them in an orderly lattice to create a piece of metal an imaginary test charge would detect no change in potential energy and therefore no force anywhere inside or outside the metal [Music] but a real electron inside the metal is acted on by all the ions and all the electrons except for itself leaving itself a net potential energy if that electron is moved from one part of the metal to another the other electrons flow around to replace it so that it has the same potential energy everywhere that means there's virtually no force to prevent an electron from moving freely through the metal but beyond the surface of the metal there are no more ions and other electrons to help balance forces so to push an electron out of the metal requires a powerful force creating a real electric potential and leaving a net positive charge on the metal [Music] so the overall potential energy of a real electron drops sharply at the metal surface to a lower value that's the same everywhere inside [Music] the electrons of a metal also have kinetic energy but not enough to escape the amount of extra energy an electron would need to escape from a metal is known as the work function [Music] alessandro volta came along before anyone was able to construct an electric battery much less see the inner workings of a metal [Music] but volta did have a knowledge of metals their properties and how they work [Music] and in that regard alessandro volta was considerably ahead of his time [Music] science was volta's gift and he wanted to share it with the world in 1775 he wrote to a friend in england describing a recent invention which he called electrophoro or the perpetual reservoir of electricity it later became known as the electrophorus once charged the electrophores retained an unlimited number of induced charges it was indeed a perpetual reservoir of electricity because the charges remained no matter how often the device was touched the scientific community hailed volta's achievement and in england joseph priestley called it the most significant invention since the leiden jar [Music] while the invention of the electro forest gave science an opportunity to advance it provided its inventor the opportunity to visit some of the countries he'd only known about through correspondence in holland for example volta studied martinus van marim's famous electrical machine [Music] and in france he was accepted by the avant-garde in both science and the arts paris was the city of pierre simon laplace astronomer and mathematical physicist and the great chemist antoine lavoisier and it was also on a visit to paris that the colonial printer turned electrician benjamin franklin entertained volta at dinner [Music] volta arrived in paris in 1781 and during his stay he accomplished much in the way of science in fact in the words of one parisian admirer volta was hailed as the newton of electricity [Music] and so it was only natural that he visit the english universities before returning home to italy [Music] as a scientific celebrity and professor of experimental physics at the university of pavia at the age of 46 volta might have rested on his well-deserved laurels however volta happened to receive a timely letter from one luigi galvani galvani lived in bologna and like volta he was an italian given to bold ideas and shocking discoveries [Music] perhaps the boldest and most shocking was an idea galvani called animal electricity this was a vital force wrote galvani different from ordinary electricity and it could be found in the tissue of a frog [Music] that is now an electric impulse causes a frog's leg to twitch in other words when the thigh nerve of a freshly dissected frog is given a small electric impulse a muscle contraction occurs [Music] by observing the twitching of a severed frog's leg galvani had discovered that those nerve impulses which excite muscles into action are really electrical signals and those signals he said travel everywhere throughout the body [Music] but galvani believed that it was animal electricity stored in the frog's nerve like ordinary electricity stored in a leiden jar he thought that a discharge of animal electricity made the muscle move [Music] but volta viewed galvani's discovery quite differently rather than detecting so-called animal electricity in all parts of the body volta found the impulse only in the frog's leg and he reasoned that animal electricity was ordinary electricity merely a jolt that was generated when two metals in galvanized circuit happened to come into contact [Music] even today there's a very significant question at the heart of volta's argument why is an electric impulse created when one metal touches another each metal zinc for example has a work function that keeps its electrons from escaping but a different metal say copper has a different work function these differ by the equivalent of about one volt of electric potential [Music] when two metals are brought into contact the barrier at the interface vanishes and electrons are free to flow into the metal where they have lower total energy as electrons flow the metal they leave becomes positively charged and the one they enter becomes negatively charged creating an electrostatic potential difference that finally balances the energy difference then the flow stops if the two metals are now separated each has a net electric charge and an electrostatic potential difference exists between them [Music] of course since the electron hadn't been discovered in volta's day he would have to base his argument on different grounds so he invented the voltaic pile which resembled an electric eel his intention may have been to shock galvani but in any event one reason the eel produces electricity is because a certain amount of moisture flows between its fin discs and acts as an electrolyte which is a fluid containing positive and negative ions in solution [Applause] suppose two different metals electrically charged by contact are placed in an electrolyte the metal that has extra electrons attracts positive ions from the solution whenever positive ions touch the surface they can extract excess electrons from the metal [Music] meanwhile the other metal which lacks electrons attracts negative ions when negative ions reach the surface the missing electrons can be replaced so the electrolyte tends to drive the metals back to an electrically neutral condition if they were to make direct contact again a new surge of electrons would flow because of their difference in work functions [Music] but now because of the electrolyte the surge doesn't stop electrons keep flowing from one metal to the other and they're continuously replaced by the ions in the solution until all the chemical energy in the solution has been used up [Music] but until that happens a battery sheds light on both physics and chemistry [Music] chemical reactions at the interface between the electrolyte and one metal provide extra electrons ready to flow [Music] at the point where one metal contacts another the difference in energy of electrons inside each drives electrons along [Music] through the electric circuit and back into the solution [Music] where they complete the chemical reaction and so it goes chemical energy turning into electrical energy until the chemicals are used up and the battery is dead [Music] that's the theory behind volta's invention and to a certain extent the reason why the electric battery and the electric eel work the same way so to duplicate nature and prove galvani wrong about animal electricity volta built layers of fins that were separated by a kind of electrolyte in this case alternating plates of silver and zinc separated by moistened pasteboard as with the eel here too it was the moisture that did the trick the trick of acting as an electrolyte and as with the electrophoresis this invention was hailed as a tremendous success for example napoleon bonaparte an emperor always interested in current events hail volta's invention is the greatest of all time and while that's strictly a matter of opinion there's no question that balta had developed the world's first electric battery [Music] past or present two pieces of different metal in an electrolytic solution are the maintenance of an electric battery however to make an efficient practical battery a little more is needed in fact things have come a long way from the days when volta made stacks of different metals separated by pieces of moist cloth clay wood and skin today for example furnaces melt heavy lead bars then the lead is cast into grids or plates that will serve as electrodes here the plates are coated with a mud paste a mixture of lead oxide acid and water filler is added to the batch of mud that goes on the negative plates then the plates are assembled alternating positive and negative with the fiberglass mat in between each pair the plates are welded to contacts placed inside a plastic case and secured the cases are filled with the solution of sulfuric acid and finally inside their case the lead plates and the surrounding electrolyte are transformed at last into electric batteries but if both electrodes are made of the same material that is if both electrodes are lead rather than say zinc and copper how can these batteries work the answer was provided by a french scientist named rimal plante who discovered this new way of making a battery he put two electrodes of the same metal lead into an electrolyte a weak solution of sulfuric acid then he applied a voltage between the electrodes driving electric current through the solution this had the effect of oxidizing one electrode changing its work function after that the principles the same as volta's pile but this battery had a great advantage it was reversible once charged it was ready for use once used and discharged it could be charged up again that's the basic idea behind the modern lead acid battery the battery of the automobile of course there's a lot more to today's automobile than a battery but that's just what it takes nonetheless to get those complex machines started so drivers around the world owe a great deal to alessandro volta whether they're blessed with the cream puff or cursed with a lemon alessandro volta's father was one of four brothers all four of whom were priests this was not very promising for the future of the family and so after 11 years in the priesthood he quit to propagate the family name and you can see that he did a very good job of it because we're still using it he produced six children three priests two nuns in alessandro this was a very effective italian method of birth control alessandro however was not cut out for the priestly calling a colleague of his name lieffenberg said of him that alessandro understood electricity the electricity of women [Music] speaking of electricity i think the time has come that we can run our electric motor because we've gathered enough charge from the lemon battery all i have to do is to connect the motor to the capacitors like this and when i throw the switch we should have it are you ready for it here we go and there it is lemon power well there's just no way in the world i'm ever going to top that so i'll take this up again next time [Music] thank [Music] you here [Music] okay [Music] annenberg media for information about this and other annenberg media programs call 1-800 learner and visit us at www.learner.org