Plante battery hi-res stock photography and images

Electricity and lab applications: first lead-acid battery invented by Gaston Planté in 1859,the negative electrode is made of lead while the positive electrode is made of lead oxide Stock Photo

RFR6BE7G–Electricity and lab applications: first lead-acid battery invented by Gaston Planté in 1859,the negative electrode is made of lead while the positive electrode is made of lead oxide

An engraving depicting a battery of 165 Plante cells used to supply light in the Hotel de Ville, Paris, France. Dated 19th century Stock Photo

RMRJ951K–An engraving depicting a battery of 165 Plante cells used to supply light in the Hotel de Ville, Paris, France. Dated 19th century

GASTON PLANTE (1834-1889) French physicist who invented the lead0-acid battery in 1859 Stock Photo

RMF3K5A3–GASTON PLANTE (1834-1889) French physicist who invented the lead0-acid battery in 1859

Engraving depicting a secondary battery. Battery of rectangular form of Plante cells (accumulator). Stock Photo

RM2CWBK65–Engraving depicting a secondary battery. Battery of rectangular form of Plante cells (accumulator).

Gaston Planté (22 April 1834 – 21 May 1889) was a French physicist who invented the lead–acid battery in 1859. This type battery was developed as the first rechargeable electric battery marketed for commercial use and it is widely used in automobiles. From the Book Les merveilles de la science, ou Description populaire des inventions modernes [The Wonders of Science, or Popular Description of Modern Inventions] by Figuier, Louis, 1819-1894 Published in Paris 1867 Stock Photo

RF2CGP1BT–Gaston Planté (22 April 1834 – 21 May 1889) was a French physicist who invented the lead–acid battery in 1859. This type battery was developed as the first rechargeable electric battery marketed for commercial use and it is widely used in automobiles. From the Book Les merveilles de la science, ou Description populaire des inventions modernes [The Wonders of Science, or Popular Description of Modern Inventions] by Figuier, Louis, 1819-1894 Published in Paris 1867

RM2CWBK5W–Engraving depicting a secondary battery. Battery of rectangular form of Plante cells (accumulator).

GASTON PLANTÉ (1834-1889) French physicist who invented the lead-acid battery Stock Photo

RM2JRXHEF–GASTON PLANTÉ (1834-1889) French physicist who invented the lead-acid battery

Automotive-type lead-acid battery, a storage battery that holds its charge for a long time and can be recharged. Stock Photo

RMBB4DGK–Automotive-type lead-acid battery, a storage battery that holds its charge for a long time and can be recharged.

RMD88DKR–Plante Accumulator

(Raymond) Gaston Plante (1834-1889) French physicist who in 1859 invented the first accumulator or electric storage battery. It was a wet cell with two lead plates immersed in sulphuric acid, the electrolyte. Engraving from 'Les Merveilles de la Science' by Louis Figuier (Paris, c1870). Stock Photo

RM2K2JX18–(Raymond) Gaston Plante (1834-1889) French physicist who in 1859 invented the first accumulator or electric storage battery. It was a wet cell with two lead plates immersed in sulphuric acid, the electrolyte. Engraving from 'Les Merveilles de la Science' by Louis Figuier (Paris, c1870).

Secondary battery of 100 horses mounted at the Paris City Hall, France. Old illustration by Louis Poyet (1846-1913) from La Nature 1887 Stock Photo

RM2T7B1KE–Secondary battery of 100 horses mounted at the Paris City Hall, France. Old illustration by Louis Poyet (1846-1913) from La Nature 1887

RM2K2JTR5–(Raymond) Gaston Plante (1834-1889) French physicist who in 1859 invented the first accumulator or electric storage battery. It was a wet cell with two lead plates immersed in sulphuric acid, the electrolyte. Engraving from 'A travers l'Electricite' by Georges Dary (Paris, c1906).

FRANCE - CIRCA 1957: a stamp printed in the France shows Gaston Plante, French Physicist, and Lead-acid Storage Battery, circa 1957 Stock Photo

RF2GAT2F3–FRANCE - CIRCA 1957: a stamp printed in the France shows Gaston Plante, French Physicist, and Lead-acid Storage Battery, circa 1957

RM2K2JTPB–(Raymond) Gaston Plante (1834-1889) French physicist who in 1859 invented the first accumulator or electric storage battery. It was a wet cell with two lead plates immersed in sulphuric acid, the electrolyte. Engraving from 'Les Nouvelles Conquetes de la Science' by Louis Figuier (Paris, 1883).

Gaston Plante French physicist who in 1859 inventor of the first accumulator or electric storage battery Stock Photo

RMKPBFM2–Gaston Plante French physicist who in 1859 inventor of the first accumulator or electric storage battery

. Electrical world. ead batteries. In the case of the 2,000-pound wagon thismeans $204 per annum, instead of $122.70 with the lead battery. Itwould seem fair to expect more repairs with the Edison battery.An analysis of the different items show, however, a net gain perton mile for the Edison battery amounting to quite a considerableamount, being 13 per cent, in the 2,000-pound wagon, 12 per cent,in the 3-ton wagon, and 125/2 per cent, in the S-ton truck. The Plante battery above referred to. which is known as the Manchester bo.x type, has a strictly Plante positive plate and whatis called a bo Stock Photo

RM2AFW359–. Electrical world. ead batteries. In the case of the 2,000-pound wagon thismeans $204 per annum, instead of $122.70 with the lead battery. Itwould seem fair to expect more repairs with the Edison battery.An analysis of the different items show, however, a net gain perton mile for the Edison battery amounting to quite a considerableamount, being 13 per cent, in the 2,000-pound wagon, 12 per cent,in the 3-ton wagon, and 125/2 per cent, in the S-ton truck. The Plante battery above referred to. which is known as the Manchester bo.x type, has a strictly Plante positive plate and whatis called a bo

Raymond Gaston Plante (1834-1889) französischer Physiker, der 1859 den ersten Akkumulator oder elektrischen Akku erfand. Es handelte sich um eine Nasszelle mit zwei Bleiplatten, die in Schwefelsäure, dem Elektrolyt, eingetaucht waren, Stich aus Les Merveilles de la Science von Louis Figuier (Paris, um 1870), Historisch, digital restaurierte Reproduktion von einer Vorlage aus dem 19. Jahrhundert, Record date not stated Stock Photo

RF2WD7P6W–Raymond Gaston Plante (1834-1889) französischer Physiker, der 1859 den ersten Akkumulator oder elektrischen Akku erfand. Es handelte sich um eine Nasszelle mit zwei Bleiplatten, die in Schwefelsäure, dem Elektrolyt, eingetaucht waren, Stich aus Les Merveilles de la Science von Louis Figuier (Paris, um 1870), Historisch, digital restaurierte Reproduktion von einer Vorlage aus dem 19. Jahrhundert, Record date not stated

Illustration of Plante's cell circa 1881 Stock Photo

RFC4PCK5–Illustration of Plante's cell circa 1881

Engraving depicting a battery of 165 Plante cells used to supply light in the Hotel de Ville, Paris. Stock Photo

RM2CWBK6E–Engraving depicting a battery of 165 Plante cells used to supply light in the Hotel de Ville, Paris.

Engraving depicting a secondary battery. Battery of Plante cells (accumulators) of 200 elements. On the widow sill are the two Bunsen cells charging the Plante cells. Stock Photo

RM2CWBK6W–Engraving depicting a secondary battery. Battery of Plante cells (accumulators) of 200 elements. On the widow sill are the two Bunsen cells charging the Plante cells.

Raymond Gaston Plante French physicist who in 1859 invented the first accumulator or electric storage battery Stock Photo

RMKF0N4P–Raymond Gaston Plante French physicist who in 1859 invented the first accumulator or electric storage battery

. Medical electricity; a practical treatise on the applications of electricity to medicine and surgery. Klectric lamps covered with bubbles of hydrogen gas. If now the stripsare separated from the battery, and connected with a gal-vanometer, it is at once seen that a current of polarizationis passing from the hydrogen to the oxygen through theliquid, which is opposite in direction to the battery current. 284 ELECTRICITY IN SURGERY. It has been further ascertained by Plante that this polariza-tion current may last a long time if the plates are largeenough. Availing himself of these facts, Plant Stock Photo

RM2AG4M3R–. Medical electricity; a practical treatise on the applications of electricity to medicine and surgery. Klectric lamps covered with bubbles of hydrogen gas. If now the stripsare separated from the battery, and connected with a gal-vanometer, it is at once seen that a current of polarizationis passing from the hydrogen to the oxygen through theliquid, which is opposite in direction to the battery current. 284 ELECTRICITY IN SURGERY. It has been further ascertained by Plante that this polariza-tion current may last a long time if the plates are largeenough. Availing himself of these facts, Plant

Engraving depicting a secondary battery. Battery of Plante cells (accumulators) of 20 elements. The Plante cell (1860) was 2 spiral lead plates immersed in diluted sulphuric acid. Stock Photo

RM2CWBK6K–Engraving depicting a secondary battery. Battery of Plante cells (accumulators) of 20 elements. The Plante cell (1860) was 2 spiral lead plates immersed in diluted sulphuric acid.

Engraving depicting a secondary battery. Plante cell (accumulator) of 1860: glass vessel containing spiral lead plates in dilute sulphuric acid. Shown here being charged by two Bunsen cells. Stock Photo

RM2CWBK61–Engraving depicting a secondary battery. Plante cell (accumulator) of 1860: glass vessel containing spiral lead plates in dilute sulphuric acid. Shown here being charged by two Bunsen cells.

RMKF0N0C–Raymond Gaston Plante French physicist who in 1859 invented the first accumulator or electric storage battery

Scientific American Volume 88 Number 10 (March 1903) . the early days of commercialstorage battery manufacture—built up a large businesswith its chloride accumulator. In the various suitsfor infringement instituted by this company againstother concerns, the validity of these patents was alwaysupheld. Consequently, the storage battery designerswere forced to fall back on the original Plante type ofplate, which has been much improved en ihis account. Now that the Brush patents have become public prop-erty, inventors can make use of this type of plate instill further perfecting storage batteries; Stock Photo

RM2AWF77F–Scientific American Volume 88 Number 10 (March 1903) . the early days of commercialstorage battery manufacture—built up a large businesswith its chloride accumulator. In the various suitsfor infringement instituted by this company againstother concerns, the validity of these patents was alwaysupheld. Consequently, the storage battery designerswere forced to fall back on the original Plante type ofplate, which has been much improved en ihis account. Now that the Brush patents have become public prop-erty, inventors can make use of this type of plate instill further perfecting storage batteries;

Engraving depicting a secondary battery. Method of constructing plates of the Plante cell. Two lead plates insulated by rubber were rolled up and secured with an ebonite cross. This was put into a glass containing diluted sulphuric acid. Stock Photo

RM2CWBK67–Engraving depicting a secondary battery. Method of constructing plates of the Plante cell. Two lead plates insulated by rubber were rolled up and secured with an ebonite cross. This was put into a glass containing diluted sulphuric acid.

RMD95MW6–(Raymond) Gaston Plante (1834-1889) French physicist who in 1859 invented the first accumulator or electric storage battery. It was a wet cell with two lead plates immersed in sulphuric acid, the electrolyte. Engraving from 'A travers l'Electricite' by Georges Dary (Paris, c1906) .

Practical talks on farm engineering : A simple explanation of many everyday problems in farm engineering and farm mechanics written in a readable style for the practical farmer . Fig- 35-—lhe grid beforepasting Fig- 35-—The Plante plateafter shredding but before forming the paste Fig. 34. — The pasted platecompleted Fig. 36.—The Plante platecompleted and formed STORAGE BATTERY FOR THE FARM 147 The lead-plate storage battery consists of acontainer, usually glass but sometimes rubber,a liquid chemical called sulphuric acid, and twoplates holding a quantity of lead paste. Theplates may be of two Stock Photo

RM2AJ6N89–Practical talks on farm engineering : A simple explanation of many everyday problems in farm engineering and farm mechanics written in a readable style for the practical farmer . Fig- 35-—lhe grid beforepasting Fig- 35-—The Plante plateafter shredding but before forming the paste Fig. 34. — The pasted platecompleted Fig. 36.—The Plante platecompleted and formed STORAGE BATTERY FOR THE FARM 147 The lead-plate storage battery consists of acontainer, usually glass but sometimes rubber,a liquid chemical called sulphuric acid, and twoplates holding a quantity of lead paste. Theplates may be of two

RMD95MW7–(Raymond) Gaston Plante (1834-1889) French physicist who in 1859 invented the first accumulator or electric storage battery. It was a wet cell with two lead plates immersed in sulphuric acid, the electrolyte. Engraving from 'Les Nouvelles Conquetes de la Science' by Louis Figuier (Paris, 1883).

Chemical engineering . FIG. I.—l-ORTABLE B.L.XCE. Full particulars are given in the Portable Balance Bulletin,eut on request by the manufacturers. Storage Battery. The unit accumulator made by the National Battery Co.,of Buffalo, N. Y., has a positive plate of the Plante type, anda negative plate of the pasted type. It is built with the viewof being used especially for high charge and discharge rates,combined with long life and high efficiency. Positive plates of the Plante type have a natural tendencyto increase in volume or grow, on account of new activematerial being formed. In many cases Stock Photo

RM2AWXWHY–Chemical engineering . FIG. I.—l-ORTABLE B.L.XCE. Full particulars are given in the Portable Balance Bulletin,eut on request by the manufacturers. Storage Battery. The unit accumulator made by the National Battery Co.,of Buffalo, N. Y., has a positive plate of the Plante type, anda negative plate of the pasted type. It is built with the viewof being used especially for high charge and discharge rates,combined with long life and high efficiency. Positive plates of the Plante type have a natural tendencyto increase in volume or grow, on account of new activematerial being formed. In many cases

RMD95MGB–(Raymond) Gaston Plante (1834-1889) French physicist who in 1859 invented the first accumulator or electric storage battery. It was a wet cell with two lead plates immersed in sulphuric acid, the electrolyte. Engraving from 'Les Merveilles de la Science' by Louis Figuier (Paris, c1870). Engraving.

. Storage battery manual, including principles of storage battery construction and design, with the application of storage of batteries to the naval service . r* Space for. ElectrolyteActive ^4ATERIAL* Reserve Lead SPUN PLATE (FORMED). SPUN PLATE (liNFORMEDH Pig. 27.—Showing Sections of Completely Spun and Fornied Gould Plants Plate. Plante Type Assemblies 69 Stock Photo

RM2CE6GN7–. Storage battery manual, including principles of storage battery construction and design, with the application of storage of batteries to the naval service . r* Space for. ElectrolyteActive ^4ATERIAL* Reserve Lead SPUN PLATE (FORMED). SPUN PLATE (liNFORMEDH Pig. 27.—Showing Sections of Completely Spun and Fornied Gould Plants Plate. Plante Type Assemblies 69

RM2CE6H55–. Storage battery manual, including principles of storage battery construction and design, with the application of storage of batteries to the naval service . loughing. (5) Swedging. Each of the above classifications refers to the particular mechanical methodemployed in increasing the surface area of that portion of the plate in con- Plante Type Assemblies 59 tact with the electrolyte and which constitutes the so-called active portionof the plate. Eepresentative types of Plante plates, constructed by each of theabove-named methods will be described. Cast Type.—The plates manufactured by the ca

RM2CE6H0Y–. Storage battery manual, including principles of storage battery construction and design, with the application of storage of batteries to the naval service . f the plate as regards weight devoted to the grid, the weightefficiency of plates of this type is comparatively low as compared to othertypes of Plante and paste plates. However, this type of plate is noted forits ruggedness and its capability to withstand much repeated abuse in theoperation of the battery. Plante Type Assemblies 61 The following are familiar examples of built-up type Plante plates asmanufactured in this country and used

RM2CE6GM2–. Storage battery manual, including principles of storage battery construction and design, with the application of storage of batteries to the naval service . his method of rib formation is superior to other methods, such asgouging, cutting, bending, etc., in that on account of the crystalline structureof lead those methods open up the pores of the lead in some of the ribs, thusallowing penetration of the electrolyte into those pores with the result thaton account of the Plante action which takes place in the pores, abnormalshedding or sloughing-oil of the lead ribs is produced; whereas, on th

. Modern mechanism, exhibiting the latest progress in machines, motors, and the transmission of power, being a supplementary volume to Appletons' cyclopaedia of applied mechanics . heChemistry of the Secondary Batteries of Plante and Fmire, by (iladstone and Tribe ; TheStorage of Electrical Energy, by G. Plante ; The Electric AccxmrUator, by E. Reynier ;(Complete Handbook on the Management of Accumulators, liy Sir I). Salomons ; Accunmla-teurs Electriques, by Rene Tamiue ; Les Voltametres-B6gulateurs. by E. Reynier; DieAccuynulatoren fuer Elelitricitaet, by E. Iloppe ; Storage Battery, by J. T Stock Photo

RM2CE6EN6–. Modern mechanism, exhibiting the latest progress in machines, motors, and the transmission of power, being a supplementary volume to Appletons' cyclopaedia of applied mechanics . heChemistry of the Secondary Batteries of Plante and Fmire, by (iladstone and Tribe ; TheStorage of Electrical Energy, by G. Plante ; The Electric AccxmrUator, by E. Reynier ;(Complete Handbook on the Management of Accumulators, liy Sir I). Salomons ; Accunmla-teurs Electriques, by Rene Tamiue ; Les Voltametres-B6gulateurs. by E. Reynier; DieAccuynulatoren fuer Elelitricitaet, by E. Iloppe ; Storage Battery, by J. T

RM2CE6GF2–. Storage battery manual, including principles of storage battery construction and design, with the application of storage of batteries to the naval service . -lined tanks. Swedged Type.—This type of plate is manufactured by the swedgingprocess, which consists in gradually developing the flat surface of a chem-ically pure, rolled sheet of lead into ribs or leaves by means of progressiveand equally distributed pressure applied to the master forming or swedg- Plante Type Assemblies 71 ing. block of the swedgiiig machine. This block consists of a steel slabhaving laminations, leaves, grooves, and

RM2CE6GMF–. Storage battery manual, including principles of storage battery construction and design, with the application of storage of batteries to the naval service . actured bythe spinning method of construction and is a type largely used in thiscountry, both in the naval service and commercial fields. Pig. 35 containsa photographic illustration of this type of plate and as manufactured by theGould Storage Battery Company. Increasing the surface area of this type ofplate is effected by passing a pure lead blank through a spinning machine Plante Type Assemblies . 65 specially designed for this purpose

. Electric railway gazette . g the active materialproduced by the disintegrating action of electricity, as inthe well known Plante process. The claims alleged to be infringed are the first, second,third, sixlh, seventh, eleventh, twelfth and thirteenth. Theyare as follows: I. A secondary battery element or electrode consistingof a plate or suitable support primarily coated or combinedwith mechanically applied active material or materialadapted to become active, substantially as set forth. 2 In a secondary battery, an electrode consisting of aplate or support provided with a coating or surface Stock Photo

RM2CH3XED–. Electric railway gazette . g the active materialproduced by the disintegrating action of electricity, as inthe well known Plante process. The claims alleged to be infringed are the first, second,third, sixlh, seventh, eleventh, twelfth and thirteenth. Theyare as follows: I. A secondary battery element or electrode consistingof a plate or suitable support primarily coated or combinedwith mechanically applied active material or materialadapted to become active, substantially as set forth. 2 In a secondary battery, an electrode consisting of aplate or support provided with a coating or surface

RM2CE6B0D–. Storage battery manual, including principles of storage battery construction and design, with the application of storage of batteries to the naval service . 354 Storage Battery Manual II. Spinning Room—(Plante Plates).— (a) Lead blanks stamped outfrom the sheets of rolled lead. (b) Blanks then carefully weighed and inspected for proper thickness. (c) Blanks placed in the spinning machines where the grooves are spunin the plate.. Fig. 132c.—Typical Scene in Grid Pasting Room. (d) Spun plates removed from the spinning machine and inspected forimperfections in the spinning process. Plates which

RM2CE6AN5–. Storage battery manual, including principles of storage battery construction and design, with the application of storage of batteries to the naval service . Pig. 132e.—Placing Plates in the Forming Tanks. set of electrodes installed in the tanks and only form one set of plates oflike polarity at the time. In the formation of Plante plates, it is usual toform all plates as positives, after which the required number of negativesare formed from these positives. Fig. 132F shows a typical scene in form-ing room. Manual oe Inspection 357 (e) After plates have received their forming charge they are

RM2CE6GK7–. Storage battery manual, including principles of storage battery construction and design, with the application of storage of batteries to the naval service . SPUN PLATE (liNFORMEDH Pig. 27.—Showing Sections of Completely Spun and Fornied Gould Plants Plate. Plante Type Assemblies 69. Fia. 28.— Gould Type Spun Plate—Submarine Type. 70 Stokage Battery Manual formation charge. This charge . consists in connecting the plates up inthe forming tanks containing the forming solution or lead corroding agents,and then passing direct current through the plates, thus depositing a thinlayer of active mate

. The medical and surgical uses of electricity. . now the series be separated from the battery, it will itself, through the action between thesefilms of gases, generate a current. A pile thusformed is called a secondary pile. It was discov-ered by Ritter. The accumulator devised by Gas-ton Plante (Fig. 20) consists of two pieces of sheetlead rolled up as electrodes, but without touching,and dipping into dilute sulphuric acid. Gas Batteiies.—The gas battery of Grove isconstructed on the same principle. The gases arecollected in glass tubes, oxygen in one and hydrogenin the other, and in each tu Stock Photo

RM2CRPDD2–. The medical and surgical uses of electricity. . now the series be separated from the battery, it will itself, through the action between thesefilms of gases, generate a current. A pile thusformed is called a secondary pile. It was discov-ered by Ritter. The accumulator devised by Gas-ton Plante (Fig. 20) consists of two pieces of sheetlead rolled up as electrodes, but without touching,and dipping into dilute sulphuric acid. Gas Batteiies.—The gas battery of Grove isconstructed on the same principle. The gases arecollected in glass tubes, oxygen in one and hydrogenin the other, and in each tu

. The medical and surgical uses of electricity : including the X-ray, Finsen light, vibratory therapeutics, and high-frequency currents . now the series be separated from the bat-tery, it will itself, through the action between thesefilms of gases, generate a current. A pile thusformed is called a secondary pile. It was discov-ered by Ritter. The accumulator devised by Gas-ton Plante (Fig. 20) consists of two pieces of sheetlead rolled up as electrodes, but without touching,and dipping into dilute sulphuric acid. Gas Batteries.—The gas battery of Grove isconstructed on the same principle. The Stock Photo

RM2CRKNKR–. The medical and surgical uses of electricity : including the X-ray, Finsen light, vibratory therapeutics, and high-frequency currents . now the series be separated from the bat-tery, it will itself, through the action between thesefilms of gases, generate a current. A pile thusformed is called a secondary pile. It was discov-ered by Ritter. The accumulator devised by Gas-ton Plante (Fig. 20) consists of two pieces of sheetlead rolled up as electrodes, but without touching,and dipping into dilute sulphuric acid. Gas Batteries.—The gas battery of Grove isconstructed on the same principle. The

. Electric railway gazette . ,000 lbs. to 55,000 lbs. The plansvary from four-wheeled machines to four driving wheelswith pony truck, and four driving wheels with a truck ateach end for the larger and heavier classes. Electrical storage batteries have attracted attentiononly within the past seven years, but the discovery of theprinciple is as old as the century, Gautherot having firstnoticed in 1.S01 that platinum or silver wires gave off a cur-rent after being disconnected from a voltaic battery withwhich they had been used for decomposing saline water.The first secondary cell of Plante was m Stock Photo

RM2CGXBKC–. Electric railway gazette . ,000 lbs. to 55,000 lbs. The plansvary from four-wheeled machines to four driving wheelswith pony truck, and four driving wheels with a truck ateach end for the larger and heavier classes. Electrical storage batteries have attracted attentiononly within the past seven years, but the discovery of theprinciple is as old as the century, Gautherot having firstnoticed in 1.S01 that platinum or silver wires gave off a cur-rent after being disconnected from a voltaic battery withwhich they had been used for decomposing saline water.The first secondary cell of Plante was m

. Bulletin. Science. Figure 29.—Charging a Plante cell with a Bunsen battery. From Gaston Plante, Recherches sur I'electricite, Paris, 1883, p. 43. Ritter, using the galvanic current, electrolyzed water and precipitated metals from their solution.''* The interesting results of Nicholson and Carlisle led to similar experiments on a larger scale, and it was not long before the new force of electricity was replacing fire as a means of analyzing a chemical compound into its elements. In 1807 Humphrey Davy,"*^ as mentioned earlier, tried the action of the voltaic current on soda and potash and Stock Photo

RMRH0586–. Bulletin. Science. Figure 29.—Charging a Plante cell with a Bunsen battery. From Gaston Plante, Recherches sur I'electricite, Paris, 1883, p. 43. Ritter, using the galvanic current, electrolyzed water and precipitated metals from their solution.''* The interesting results of Nicholson and Carlisle led to similar experiments on a larger scale, and it was not long before the new force of electricity was replacing fire as a means of analyzing a chemical compound into its elements. In 1807 Humphrey Davy,"*^ as mentioned earlier, tried the action of the voltaic current on soda and potash and

. Bulletin. Science. Figure 21.âGrove battery as used in American telegraphy. From G. B. Prescott, History, Theory, and Practice oj the Electric Telegraph, Boston, i860, p. 68, fig. 7. Plante was able to turn the disadvantage of polariza- tion into an advantage, and, using solid electrodesâ Grove's 1839 cell had gas electrodesâhe created the first "storage" (secondary) cell.^Â° By electrolyzing dilute sulfuric acid with lead electrodes, Plante formed a layer of lead oxide on lead. The charging batteries were then removed, and the secoadary cell could return the stored energy. If not Stock Photo

RMRH05CK–. Bulletin. Science. Figure 21.âGrove battery as used in American telegraphy. From G. B. Prescott, History, Theory, and Practice oj the Electric Telegraph, Boston, i860, p. 68, fig. 7. Plante was able to turn the disadvantage of polariza- tion into an advantage, and, using solid electrodesâ Grove's 1839 cell had gas electrodesâhe created the first "storage" (secondary) cell.^Â° By electrolyzing dilute sulfuric acid with lead electrodes, Plante formed a layer of lead oxide on lead. The charging batteries were then removed, and the secoadary cell could return the stored energy. If not

RMRH05BW–. Bulletin. Science. Figure 21.âGrove battery as used in American telegraphy. From G. B. Prescott, History, Theory, and Practice oj the Electric Telegraph, Boston, i860, p. 68, fig. 7. Plante was able to turn the disadvantage of polariza- tion into an advantage, and, using solid electrodesâ Grove's 1839 cell had gas electrodesâhe created the first "storage" (secondary) cell.^Â° By electrolyzing dilute sulfuric acid with lead electrodes, Plante formed a layer of lead oxide on lead. The charging batteries were then removed, and the secoadary cell could return the stored energy. If not

. Bulletin. Science. Figure 30.—Charging a Plante cell with a Gramme magneto generator. From Gaston Plante, Recherches sur Veleclricite, Paris, 1883, p. 80. ih i. ^yi^M&fciyL^iaiyMfepjfeW^f^^ '^'. Figm-e 31.—Battery of Plante cells arranged for high-voltage experiments. From Gaston Plante, Recherches sur I'Electricite, Paris, 1883, p. 97. PAPER 28: DEVELOPMENT OF ELECTRICAL TECHNOLOGY IN THE 19TH CENTURY! I 576627—61 4 251. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustra Stock Photo

RMRH057D–. Bulletin. Science. Figure 30.—Charging a Plante cell with a Gramme magneto generator. From Gaston Plante, Recherches sur Veleclricite, Paris, 1883, p. 80. ih i. ^yi^M&fciyL^iaiyMfepjfeW^f^^ '^'. Figm-e 31.—Battery of Plante cells arranged for high-voltage experiments. From Gaston Plante, Recherches sur I'Electricite, Paris, 1883, p. 97. PAPER 28: DEVELOPMENT OF ELECTRICAL TECHNOLOGY IN THE 19TH CENTURY! I 576627—61 4 251. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustra

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