Chapter 5 online catalog& databases

1) Can you identify the library website, opac, library database
Library catalog is a database of all the materials a library owns.  A library catalog is an organized searchable list of records that identify, describe and locate materials in one or more library collection. the definition of Opac means Online public access catalog and library database can be bibliographic or full text. Bibliographic databases inform you of the existence of an article, and you then pursue that article in the library's physical collection by usig the library catalog in the eclectronic collection by doing an e-journals search or procuring it via our "Get Materials" webpage.

2)]

Science of Magic - New York Times

 -http://www.neuralcorrelate.com/smc_lab/files/inpressfiles/nyt_070821.pdf

TRB cp article 
http://www.nyc.gov/html/dot/downloads/pdf/schaller_paper_2010trb.pdf

NYT Ethics in Journalism_07
http://www.nytco.com/pdf/NYT_Ethical_Journalism_0904.pdf

Live From the Lab, a Culture Worth a Thousand Words -
http://www.eecs.harvard.edu/~rad/igem05/igem-nytimes-article2.pdf

The New York Times Annotated Corpus Overview -

http://www.ldc.upenn.edu/Catalog/docs/LDC2008T19/new_york_times_annotated_corpus.pdf

3)abstract of an article/paper is a shotend form of a speech, article, book, etc.

4)What is a "full-text article"?
Full-Text Article - In computerized databases, the complete article rather than just a citation or abstract. In LIAS databases, move from the record screen to the full text of an article by entering the command DIT. A full-text article in LIAS can be printed, sent to your email address, or saved to disk.

5)My search technique is when I do my search on the online search engine I tried to make the question as precise as I can and make sure it is related to the subject I want to search and not go to the subject that is not related nd I tried to be brief as I can.

Exercise 4 Reference Sources

The Nobel Peace Prize for 2009

The Norwegian Nobel Committee has decided that the Nobel Peace Prize for 2009 is to be awarded to President Barack Obama for his extraordinary efforts to strengthen international diplomacy and cooperation between peoples. The Committee has attached special importance to Obama's vision of and work for a world without nuclear weapons.
Obama has as President created a new climate in international politics. Multilateral diplomacy has regained a central position, with emphasis on the role that the United Nations and other international institutions can play. Dialogue and negotiations are preferred as instruments for resolving even the most difficult international conflicts. The vision of a world free from nuclear arms has powerfully stimulated disarmament and arms control negotiations. Thanks to Obama's initiative, the USA is now playing a more constructive role in meeting the great climatic challenges the world is confronting. Democracy and human rights are to be strengthened.
Only very rarely has a person to the same extent as Obama captured the world's attention and given its people hope for a better future. His diplomacy is founded in the concept that those who are to lead the world must do so on the basis of values and attitudes that are shared by the majority of the world's population.
For 108 years, the Norwegian Nobel Committee has sought to stimulate precisely that international policy and those attitudes for which Obama is now the world's leading spokesman. The Committee endorses Obama's appeal that "Now is the time for all of us to take our share of responsibility for a global response to global challenges."
Oslo, October 9, 2009

History of the automobile

From Wikipedia, the free encyclopedia

Jump to: navigation, search

The design of the Cugnot Steam Trolley (Jonathan Holguinisburg) (1769)

The history of the automobile begins as early as 1769, with the creation of steam-powered automobiles capable of human transport.^[1] In 1806, the first cars powered by internal combustion engines running on fuel gas appeared, which led to the introduction in 1885 of the ubiquitous modern gasoline- or petrol-fueled internal combustion engine. Cars powered by electricity briefly appeared at the turn of the 20th century but largely disappeared from commonality until the turn of the 21st century, when interest in low- and zero-emissions transportation was reignited. As such, the early history of the automobile can be divided into a number of eras based on the prevalent method of automotive propulsion during that time. Later periods were defined by trends in exterior styling and size and utility preferences.

Contents [hide] 1 Eras of invention 1.1 Pioneer inventors 1.2 Early automobiles 1.2.1 Steam automobiles 1.2.2 Electric automobiles 1.2.3 Internal combustion engines 1.3 Veteran era 1.3.1 Brass or Edwardian era 1.4 Vintage era 1.5 Pre-WWII era 1.6 Post-war era 1.7 Modern era 1.8 Future directions 2 See also 3 References 4 Further reading 5 External links

[edit] Eras of invention

[edit] Pioneer inventors

German engineer Karl Benz, the inventor of numerous car-related technologies, is generally regarded as the inventor of the modern automobile. The four-stroke petrol (gasoline) internal combustion engine that constitutes the most prevalent form of modern automotive propulsion is a creation of German inventor Nikolaus Otto. The similar four-stroke diesel engine was also invented by a German, Rudolf Diesel. The hydrogen fuel cell, one of the technologies hailed as a replacement for gasoline as an energy source for cars, was discovered in principle by yet another German, Christian Friedrich Schönbein, in 1838. The battery electric car owes its beginnings to Hungarian Ányos Jedlik, one of the inventors of the electric motor, and Gaston Planté, who invented the lead-acid battery in 1859.

[edit] Early automobiles

[edit] Steam automobiles

See also: History of steam road vehicles

Cugnot's steam wagon, the second (1771) version

Ferdinand Verbiest, a member of a Jesuit mission in China, built the first steam-powered vehicle around 1672, designed as a toy for the Chinese Emperor, it being of small scale and unable to carry a driver or passenger but, quite possibly, the first working steam-powered vehicle ('auto-mobile').^[2][3]

A replica of Richard Trevithick's 1801 road locomotive 'Puffing Devil'

Steam-powered self-propelled vehicles are thought to have been devised in the late-18th century. Nicolas-Joseph Cugnot demonstrated his fardier à vapeur, an experimental steam-driven artillery tractor, in 1770 and 1771. Cugnot's design proved to be impractical and his invention was not developed in his native France, the centre of innovation passing to Great Britain. By 1784, William Murdoch had built a working model of a steam carriage in Redruth, and in 1801 Richard Trevithick was running a full-sized vehicle on the road in Camborne.^[4] Such vehicles were in vogue for a time, and over the next decades such innovations as hand brakes, multi-speed transmissions, and better steering developed. Some were commercially successful in providing mass transit, until a backlash against these large speedy vehicles resulted in passing a law, the Locomotive Act, in 1865 requiring self-propelled vehicles on public roads in the United Kingdom be preceded by a man on foot waving a red flag and blowing a horn. This effectively killed road auto development in the UK for most of the rest of the 19th century. as inventors and engineers shifted their efforts to improvements in railway locomotives. The law was not repealed until 1896, although the need for the red flag was removed in 1878.
In Russia in the 1780s, Ivan Kulibin started working on a human-pedalled carriage with a steam engine. He finished working on it in 1791. Some of its features included a flywheel, brake, gearbox, and bearing, which are also the features of a modern automobile. His design had three roadwheels. Unfortunately, as with many of his inventions, the government failed to see the potential market and it was not developed further.^[5][6]
The first automobile patent in the United States was granted to Oliver Evans in 1789. In 1805, Evans demonstrated his first successful self-propelled vehicle, which not only was the first automobile in the USA, but was also the first amphibious vehicle, as his steam-powered vehicle was able to travel on roadwheels on land, and via a paddle wheel in the water.
Among other efforts, in 1815, a professor at Prague Polytechnich, Josef Bozek, built an oil-fired steam car.^[7]:p.27 and Walter Hancock, builder and operator of London steam buses, in 1838 built a four-seat steam phaeton.^[7]:p27 Steam car development would from them on continue, leading to significant advances by the early 1900s (see Edwardian Era car).

[edit] Electric automobiles

See also: History of the electric vehicle

In 1828, Ányos Jedlik, a Hungarian who invented an early type of electric motor, created a tiny model car powered by his new motor.^[8] In 1834, Vermont blacksmith Thomas Davenport, the inventor of the first American DC electrical motor, installed his motor in a small model car, which he operated on a short circular electrified track.^[9] In 1835, Professor Sibrandus Stratingh of Groningen, the Netherlands and his assistant Christopher Becker created a small-scale electrical car, powered by non-rechargeable primary cells.^[10] In 1838, Scotsman Robert Davidson built an electric locomotive that attained a speed of 4 miles per hour (6 km/h). In England, a patent was granted in 1840 for the use of rail tracks as conductors of electric current, and similar American patents were issued to Lilley and Colten in 1847. Between 1832 and 1839 (the exact year is uncertain), Robert Anderson of Scotland invented the first crude electric carriage, powered by non-rechargeable primary cells.

[edit] Internal combustion engines

1885-built Benz Patent Motorwagen, the first car to go into production with an internal combustion engine

1870, Vienna, Austria: world's first gasoline-run vehicle, the 'first Marcus car'

The second Marcus car of 1888 (Technical Museum Vienna)

Early attempts at making and using internal combustion engines were hampered by the lack of suitable fuels, particularly liquids, and the earliest engines used gas mixtures.
Early experimenters using gases included, in 1806, Swiss engineer François Isaac de Rivaz who built an internal combustion engine powered by a hydrogen and oxygen mixture, and in 1826, Englishman Samuel Brown who tested his hydrogen-fuelled internal combustion engine by using it to propel a vehicle up Shooter's Hill in south-east London. Belgian-born Etienne Lenoir's Hippomobile with a hydrogen-gas-fuelled one-cylinder internal combustion engine made a test drive from Paris to Joinville-le-Pont in 1860, covering some nine kilometres in about three hours.^[11] A later version was propelled by coal gas. A Delamare-Deboutteville vehicle was patented and trialled in 1884.
About 1870, in Vienna, Austria (then the Austro-Hungarian Empire), inventor Siegfried Marcus put a liquid-fuelled internal combustion engine on a simple handcart which made him the first man to propel a vehicle by means of gasoline. Today, this car is known as "the first Marcus car". In 1883, Marcus secured a German patent for a low-voltage ignition system of the magneto type; this was his only automotive patent. This design was used for all further engines, and the four-seat "second Marcus car" of 1888/89. This ignition, in conjunction with the "rotating-brush carburetor", made the second car's design very innovative.
It is generally acknowledged that the first really practical automobiles with petrol/gasoline-powered internal combustion engines were completed almost simultaneously by several German inventors working independently: Karl Benz built his first automobile in 1885 in Mannheim. Benz was granted a patent for his automobile on 29 January 1886, and began the first production of automobiles in 1888, after Bertha Benz, his wife, had proved - with the first long-distance trip in August 1888, from Mannheim to Pforzheim and back - that the horseless coach was absolutely suitable for daily use. Since 2008 a Bertha Benz Memorial Route commemorates this event.
Soon after, Gottlieb Daimler and Wilhelm Maybach in Stuttgart in 1889 designed a vehicle from scratch to be an automobile, rather than a horse-drawn carriage fitted with an engine. They also are usually credited with invention of the first motorcycle in 1886, but Italy's Enrico Bernardi of the University of Padua, in 1882, patented a 0.024 horsepower (17.9 W) 122 cc (7.4 cu in) one-cylinder petrol motor, fitting it into his son's tricycle, making it at least a candidate for the first automobile, and first motorcycle;.^[7]:p.26 Bernardi enlarged the tricycle in 1892 to carry two adults.^[7]:p.26
One of the first four-wheeled petrol-driven automobiles in Britain was built in Birmingham in 1895 by Frederick William Lanchester, who also patented the disc brake; and the first electric starter was installed on an Arnold, an adaptation of the Benz Velo, built between 1895 and 1898.^[7]:p.25
In all the turmoil, many early pioneers are nearly forgotten. In 1891, John William Lambert built a three-wheeler in Ohio City, Ohio, which was destroyed in a fire the same year, while Henry Nadig constructed a four-wheeler in Allentown, Pennsylvania. It is likely they were not the only ones.^[7]:p.25

[edit] Veteran era

The French 1898 Renault Voiturette

The first production of automobiles was by Karl Benz in 1888 in Germany and, under licence from Benz, in France by Emile Roger. There were numerous others, including tricycle builders Rudolf Egg, Edward Butler, and Léon Bollée.^[7]:p.20-23 Bollée, using a 650 cc (40 cu in) engine of his own design, enabled his driver, Jamin, to average 45 kilometres per hour (28.0 mph) in the 1897 Paris-Tourville rally.^[7]:p.23 By 1900, mass production of automobiles had begun in France and the United States. The first company formed exclusively to build automobiles was Panhard et Levassor in France, which also introduced the first four-cylinder engine.^[7]:p.22 Formed in 1889, Panhard was quickly followed by Peugeot two years later. By the start of the 20th century, the automobile industry was beginning to take off in western Europe, especially in France, where 30,204 were produced in 1903, representing 48.8% of world automobile production that year.^{[12][citation needed]}

The first automobile in Japan, a French Panhard-Levassor, in 1898

1903 World's Work Article

In the United States, brothers Charles and Frank Duryea founded the Duryea Motor Wagon Company in 1893, becoming the first American automobile manufacturing company. However, it was Ransom E. Olds and his Olds Motor Vehicle Company (later known as Oldsmobile) who would dominate this era of automobile production. Its large scale production line was running in 1902. Within a year, Cadillac (formed from the Henry Ford Company), Winton, and Ford were producing cars in the thousands.
Within a few years, a dizzying assortment of technologies were being produced by hundreds of producers all over the western world. Steam, electricity and petrol/gasoline-powered automobiles competed for decades, with petrol/gasoline internal combustion engines achieving dominance in the 1910s. Dual- and even quad-engine cars were designed, and engine displacement ranged to more than a dozen litres. Many modern advances, including gas/electric hybrids, multi-valve engines, overhead camshafts, and four-wheel drive, were attempted, and discarded at this time. In 1898, Louis Renault had a De Dion-Bouton modified, with fixed drive shaft and ring and pinion gear, making "perhaps the first hot rod in history" and bringing Renault and his brothers into the car industry.^[13] Innovation was rapid and rampant, with no clear standards for basic vehicle architectures, body styles, construction materials, or controls. Many veteran cars use a tiller, rather than a wheel for steering, for example, and most operated at a single speed. Chain drive was dominant over the drive shaft, and closed bodies were extremely rare. Drum brakes were introduced by Renault in 1902.^[14] The next year, Dutch designer Jacobus Spijker built the first four-wheel drive racing car;^[15] it never competed and it would be 1965 and the Jensen FF before four wheel drive was used on a production car.^[16]
Innovation was not limited to the vehicles themselves, either. Increasing numbers of cars propelled the growth of the petroleum industry,^[17] as well as the development of technology to produce gasoline (replacing kerosene and coal oil) and of improvements in heat-tolerant mineral oil lubricants (replacing vegetable and animal oils).^[18]
There were social effects, also. Music would be made about cars, such as "In My Merry Oldsmobile" (a tradition that continues) while, in 1896, William Jennings Bryan would be the first presidential candidate to campaign in a car (a donated Mueller), in Decatur, Illinois.^[19] Three years later, Jacob German would start a tradition for New York City cabdrivers when he sped down Lexington Avenue, at the "reckless" speed of 12 mph (19 km/h).^[20] Also in 1899, Akron, Ohio, adopted the first self-propelled paddy wagon.^[20]

In My Merry Oldsmobile songbook featuring an Oldsmobile Curved Dash automobile (produced 1901-1907) and period driving clothing

By 1900, it was possible to talk about a national automotive industry in many countries, including Belgium (home to Vincke, which copied Benz; Germain, a pseudo-Panhard; and Linon and Nagant, both based on the Gobron-Brillié),^[7]:p,25 Switzerland (led by Fritz Henriod, Rudolf Egg, Saurer, Johann Weber, and Lorenz Popp),^[7]:p.25 Vagnfabrik AB in Sweden, Hammel (by A. F. Hammel and H. U. Johansen at Copenhagen, in Denmark, beginning around 1886),^[7]:p.25 Irgens (starting in Bergen, Norway, in 1883, but without success),^[7]:p.25-26 Italy (where FIAT started in 1899), and as far afield as Australia (where Pioneer set up shop in 1898, with an already archaic paraffin-fuelled centre-pivot-steered wagon).^[7] Meanwhile, the export trade had begun to be global, with Koch exporting cars and trucks from Paris to Tunisia, Egypt, Iran, and the Dutch East Indies.^[7]:p25
On 5 November 1895, George B. Selden was granted a United States patent for a two-stroke automobile engine (U.S. Patent 549,160). This patent did more to hinder than encourage development of autos in the USA. Selden licensed his patent to most major American auto makers, collecting a fee on every car they produced. The Studebaker brothers, having become the world's leading manufacturers of horse-drawn vehicles, made a transition to electric automobiles in 1902, and gasoline engines in 1904, but also continued to build horse-drawn vehicles until 1919.^[21]:p.90 In 1908, the first South American automobile was built in Peru, the Grieve.^[22] Motor cars were also exported very early to British colonies and the first motor car was exported to India in 1897.
Throughout the veteran car era, however, automobiles were seen as more of a novelty than a genuinely useful device. Breakdowns were frequent, fuel was difficult to obtain, roads suitable for travelling were scarce, and rapid innovation meant that a year-old car was nearly worthless. Major breakthroughs in proving the usefulness of the automobile came with the historic long-distance drive of Bertha Benz in 1888, when she travelled more than 80 kilometres (50 mi) from Mannheim to Pforzheim, to make people aware of the potential of the vehicles her husband, Karl Benz, manufactured, and after Horatio Nelson Jackson's successful trans-continental drive across the United States in 1903.

[edit] Brass or Edwardian era

T-model Ford car parked outside Geelong Library at its launch in Australia in 1915

Main article: Brass Era car

Named for the widespread use of brass in the United States, the Brass (or Edwardian) Era lasted from roughly 1905 through to the beginning of World War I in 1914. 1905 was about the time when sales began shifting from the hobbyist and enthusiast to the average user.^{[citation needed]}
Within the 15 years that make up this era, the various experimental designs and alternate power systems would be marginalised. Although the modern touring car had been invented earlier, it was not until Panhard et Levassor's Système Panhard was widely licensed and adopted that recognisable and standardised automobiles were created. This system specified front-engined, rear-wheel drive internal combustion engined cars with a sliding gear transmission. Traditional coach-style vehicles were rapidly abandoned, and buckboard runabouts lost favour with the introduction of tonneaus and other less-expensive touring bodies.

A Stanley Steamer racecar in 1903. In 1906, a similar Stanley Rocket set the world land speed record at 205.5km/h at Daytona Beach Road Course.

By 1906, steam car development had advanced, and they were among the fastest road vehicles in that period.^{[23][not in citation given]}
Throughout this era, development of automotive technology was rapid, due in part to hundreds of small manufacturers competing to gain the world's attention. Key developments included the electric ignition system (by dynamotor on the Arnold in 1898,^[24] though Robert Bosch, 1903, tends to get the credit), independent suspension (actually conceived by Bollée in 1873),^[24] and four-wheel brakes (by the Arrol-Johnston Company of Scotland in 1909).^[7]:p27 Leaf springs were widely used for suspension, though many other systems were still in use, with angle steel taking over from armored wood as the frame material of choice. Transmissions and throttle controls were widely adopted, allowing a variety of cruising speeds, though vehicles generally still had discrete speed settings, rather than the infinitely variable system familiar in cars of later eras. Safety glass also made its debut, patented by John Wood in England in 1905.^[14] (It would not become standard equipment until 1926, on a Rickenbacker.)^[14]
Between 1907 and 1912 in the United States, the high-wheel motor buggy (resembling the horse buggy of before 1900) was in its heyday, with over seventy-five makers including Holsman (Chicago), IHC (Chicago), and Sears (which sold via catalog); the high-wheeler would be killed by the Model T.^[7]:p.65 In 1912, Hupp (in the U.S., supplied by Hale & Irwin) and BSA (in the UK) pioneered the use of all-steel bodies,^[25] joined in 1914 by Dodge (who produced Model T bodies).^[14] While it would be another two decades before all-steel bodies would be standard, the change would mean improved supplies of superior-quality wood for furniture makers.^[7]

Some examples of cars of the period included

• 1908–1927 Ford Model T — the most widely produced and available car of the era. It used a planetary transmission, and had a pedal-based control system.
• 1910 Mercer Raceabout — regarded as one of the first sports cars, the Raceabout expressed the exuberance of the driving public, as did the similarly-conceived American Underslung and Hispano-Suiza Alphonso.
• 1910–1920 Bugatti Type 13 — a notable racing and touring model with advanced engineering and design. Similar models were the Types 15, 17, 22, and 23.

[edit] Vintage era

1926 Austin 7 Box saloon

Lineup of Ford Model As

Main article: Vintage car

The vintage era lasted from the end of World War I (1919), through the Wall Street Crash at the end of 1929. During this period, the front-engined car came to dominate, with closed bodies and standardised controls becoming the norm. In 1919, 90% of cars sold were open; by 1929, 90% were closed.^[7]:p.7 Development of the internal combustion engine continued at a rapid pace, with multi-valve and overhead camshaft engines produced at the high end, and V8, V12, and even V16 engines conceived for the ultra-rich. Also in 1919, hydraulic brakes were invented by Malcolm Loughead (co-founder of Lockheed); they were adopted by Duesenberg for their 1921 Model A.^[14] Three years later, Hermann Rieseler of Vulcan Motor invented the first automatic transmission, which had two-speed planetary gearbox, torque converter, and lockup clutch; it never entered production.^[14] (Its like would only become an available option in 1940.)^[14] Just at the end of the vintage era, tempered glass (now standard equipment in side windows) was invented in France.^[14]
Exemplary vintage vehicles:

• 1922–1939 Austin 7 — the Austin Seven was one of the most widely copied vehicles ever, serving as a template for cars around the world, from BMW to Nissan.
• 1924–1929 Bugatti Type 35 — the Type 35 was one of the most successful racing cars of all time, with over 1,000 victories in five years.
• 1922–1931 Lancia Lambda — very advanced car for the time, first car to feature a load-bearing monocoque-type body and independent front suspension.
• 1925–1928 Hanomag 2 / 10 PS — early example of ponton styling, without fully articulated fenders and running boards.
• 1927–1931 Ford Model A (1927-1931) — after keeping the brass era Model T in production for too long, Ford broke from the past by restarting its model series with the 1927 Model A. More than 4 million were produced, making it the best-selling model of the era.
• 1930 Cadillac V-16 — developed at the height of the vintage era, the V16-powered Cadillac would join Bugatti's Royale as the most legendary ultra-luxury cars of the era.

[edit] Pre-WWII era

Citroën Traction Avant

Main article: Classic car

The pre-war part of the classic era began with the Great Depression in 1930, and ended with the recovery after World War II, commonly placed at 1948. It was in this period that integrated fenders and fully-closed bodies began to dominate sales, with the new saloon/sedan body style even incorporating a trunk or boot at the rear for storage. The old open-top runabouts, phaetons, and touring cars were phased out by the end of the classic era as wings, running boards, and headlights were gradually integrated with the body of the car.
By the 1930s, most of the mechanical technology used in today's automobiles had been invented, although some things were later "re-invented", and credited to someone else. For example, front-wheel drive was re-introduced by André Citroën with the launch of the Traction Avant in 1934, though it had appeared several years earlier in road cars made by Alvis and Cord, and in racing cars by Miller (and may have appeared as early as 1897). In the same vein, independent suspension was originally conceived by Amédée Bollée in 1873, but not put in production until appearing on the low-volume Mercedes-Benz 380 in 1933, which prodded American makers to use it more widely.^[24] In 1930, the number of auto manufacturers declined sharply as the industry consolidated and matured, thanks in part to the effects of the Great Depression.
Exemplary pre-war automobiles:

• 1932–1939 Alvis Speed 20 and Speed 25 — the first cars with all-synchromesh gearbox.
• 1932–1948 Ford V-8 — introduction of the powerful flathead V8 in mainstream vehicles, setting new performance and efficiency standards.
• 1934–1940 Bugatti Type 57 — a singular refined automobile for the wealthy.
• 1934–1956 Citroën Traction Avant — the first mass-produced front-wheel drive car, built with monocoque chassis.
• 1936–1955 MG T series — sports cars with youth appeal at an affordable price.
• 1938–2003 Volkswagen Beetle — a design for efficiency and low price, which progressed over 60 years with minimal basic change.
• 1936–1939 Rolls-Royce Phantom III — V12 engined pinnacle of pre-war engineering, with technological advances not seen in most other manufacturers until the 1960s. Superior performance and quality.

[edit] Post-war era

1953 Morris Minor Series II

Jaguar E-type coupe

1985 Mini

See also: Antique car

Automobile design finally emerged from the shadow of World War II in 1949, the year that in the United States saw the introduction of high-compression V8 engines and modern bodies from General Motors' Oldsmobile and Cadillac brands. The unibody/strut-suspended 1951 Ford Consul joined the 1948 Morris Minor and 1949 Rover P4 in waking up the automobile market in the United Kingdom. In Italy, Enzo Ferrari was beginning his 250 series, just as Lancia introduced the revolutionary V6-powered Aurelia.
Throughout the 1950s, engine power and vehicle speeds rose, designs became more integrated and artful, and cars spread across the world. Alec Issigonis' Mini and Fiat's 500 diminutive cars swept Europe, while the similar kei car class put Japan on wheels for the first time. The legendary Volkswagen Beetle survived Hitler's Germany to shake up the small-car market in the Americas. Ultra luxury, exemplified in America by the Cadillac Eldorado Brougham, reappeared after a long absence, and grand tourers (GT), like the Ferrari Americas, swept across Europe.
The market changed somewhat in the 1960s, as Detroit began to worry about foreign competition, the European makers adopted ever-higher technology, and Japan appeared as a serious car-producing nation. General Motors, Chrysler, and Ford tried radical small cars, like the GM A-bodies, but had little success. Captive imports and badge engineering swept through the US and UK as amalgamated groups like the British Motor Corporation consolidated the market. BMC's revolutionary space-saving Mini, which first appeared in 1959, captured large sales worldwide. Minis were marketed under the Austin and Morris names, until Mini became a marque in its own right in 1969.^[26] The trend for corporate consolidation reached Italy as niche makers like Maserati, Ferrari, and Lancia were acquired by larger companies. By the end of the decade, the number of automobile marques had been greatly reduced.
In America, performance became a prime focus of marketing, exemplified by pony cars and muscle cars. In 1964 the popular Ford Mustang appeared. In 1967, Chevrolet released the Camaro to compete with the Mustang. But everything changed in the 1970s as the 1973 oil crisis, automobile emissions control rules, Japanese and European imports, and stagnant innovation wreaked havoc on the American industry. Though somewhat ironically, full-size sedans staged a major comeback in the years between the energy crisis, with makes such as Cadillac and Lincoln staging their best sales years ever in the late 70s. Small performance cars from BMW, Toyota, and Nissan took the place of big-engined cars from America and Italy.
On the technology front, the biggest developments of the era were the widespread use of independent suspensions, wider application of fuel injection, and an increasing focus on safety in the design of automobiles. The hottest technologies of the 1960s were NSU's "Wankel engine", the gas turbine, and the turbocharger. Of these, only the last, pioneered by General Motors but popularised by BMW and Saab, was to see widespread use. Mazda had much success with its "Rotary" engine which, however, acquired a reputation as a polluting gas-guzzler. Other Wankel licensees, including Mercedes-Benz and General Motors, never put their designs into production after the 1973 oil crisis. (Mazda's hydrogen-fuelled successor was later to demonstrate potential as an "ultimate eco-car".^[27]) Rover and Chrysler both produced experimental gas turbine cars to no effect.

A so-called yank tank in Havana, Cuba

Cuba is famous for retaining its pre-1959 cars, known as yank tanks or maquinas, which have been kept since the Cuban revolution when the influx of new cars slowed because of a US trade embargo.
Exemplary post-war cars:

• 1948–1971 Morris Minor — a popular, and typical post-war car exported around the world.
• 1959–2000 Mini — this quintessential small car lasted for four decades, and is one of the most famous cars of all time.
• 1961–1975 Jaguar E-type — the E-type saved Jaguar on the track and in the showroom, and was a standard for design and innovation in the 1960s.
• 1964–present Ford Mustang — the pony car that became one of the best-selling and most-collected cars of the era.
• 1969 Datsun 240Z — one of the first Japanese sports cars to be a smash hit with the North American public, it paved the way for future decades of Japanese strength in the automotive industry. It was affordable, well built, and had great success both on the track and in the showroom.

[edit] Modern era

The wedge profile of the 1967 NSU Ro 80 was often copied in subsequent decades^{[citation needed]}

The modern era is normally defined as the 25 years preceding the current year. However, there are some technical and design aspects that differentiate modern cars from antiques. Without considering the future of the car, the modern era has been one of increasing standardisation, platform sharing, and computer-aided design.
Some particularly notable advances in modern times are the widespread of front-wheel drive and all-wheel drive, the adoption of the diesel engine, and the ubiquity of fuel injection. While all of these advances were first attempted in earlier eras, they so dominate the market today that it is easy to overlook their significance. Nearly all modern passenger cars are front-wheel drive monocoque/unibody designs, with transversely-mounted engines, but this design was considered radical as late as the 1960s.
Body styles have changed as well in the modern era. Three types, the hatchback, minivan, and sport utility vehicle, dominate today's market,^{[citation needed]} yet are relatively recent concepts. All originally emphasised practicality, but have mutated into today's high-powered luxury crossover SUV and sports wagon. The rise of pickup trucks in the United States, and SUVs worldwide has changed the face of motoring, with these "trucks" coming to command more than half of the world automobile market.
The modern era has also seen rapidly rising fuel efficiency and engine output. Once the automobile emissions concerns of the 1970s were conquered with computerised engine management systems, power began to rise rapidly. In the 1980s, a powerful sports car might have produced 200 horsepower (150 kW) – just 20 years later, average passenger cars have engines that powerful, and some performance models offer three times as much power.
Exemplary modern cars:

• 1966–present Toyota Corolla — a simple small Japanese saloon/sedan that has come to be the best-selling car of all time.
• 1967 NSU Ro 80 — the basic wedge profile of this design was much emulated in subsequent decades.^[28]
• 1970–present Range Rover — the first take on the combination of luxury and four-wheel drive utility, the original 'SUV'. Such was the popularity of the original Range Rover Classic that a new model was not brought out until 1994.^[29]
• 1973–present Mercedes-Benz S-Class — electronic Anti-lock Braking System, supplemental restraint airbags, seat belt pretensioners, and electronic traction control systems all made their debut on the S-Class. These features would later become standard throughout the car industry.
• 1975–present BMW 3 Series — the 3 Series has been on Car and Driver magazine's annual Ten Best list 17 times, making it the longest running entry in the list.
• 1977–present Honda Accord saloon/sedan — this Japanese sedan became the most popular car in the United States in the 1990s, pushing the Ford Taurus aside, and setting the stage for today's upscale Asian sedans.
• 1981–1989 Dodge Aries and Plymouth Reliant — the "K-cars" that saved Chrysler as a major manufacturer. These models were some of the first successful American front-wheel drive, fuel-efficient compact cars.
• 1983–present Chrysler minivans — the two-box minivan design nearly pushed the station wagon out of the market, and presaged today's crossover SUVs.
• 1986–present Ford Taurus — this mid-sized front-wheel drive sedan with modern computer-assisted design dominated the American market in the late 1980s, and created a design revolution in North America.

[edit] Future directions

Main article: Future car technologies

[edit] See also

Wikimedia Commons has media related to: History of the automobile

Wikimedia Commons has media related to: Automobiles

• History of the internal combustion engine
• Automotive industry - information on current production and companies

[edit] References

1. ^ Eckermann, Erik (2001). World History of the Automobile. SAE Press, p.14.
2. ^ "1679-1681–R P Verbiest's Steam Chariot". History of the Automobile: origin to 1900. Hergé. http://translate.google.com/translate?hl=en&sl=fr&u=http://users.skynet.be/tintinpassion/VOIRSAVOIR/Auto/Pages_auto/Auto_001.html&sa=X&oi=translate. Retrieved 2009-05-08. 
3. ^ Setright, L. J. K. (2004). Drive On!: A Social History of the Motor Car. Granta Books. ISBN 1-86207-698-7. 
4. ^ C.D. Buchanan (1958). "1". Mixed Blessing: The Motor in Britain. Leonard Hill. 
5. ^ Russian webpage with drawings of Kulibin vehicle designs
6. ^ Second Russian webpage with drawing
7. ^ ^{a b c d e f g h i j k l m n o p q r s} Georgano, G.N. (1985). Cars: Early and Vintage, 1886-1930. London: Grange-Universal. 
8. ^ B David Ferrel, History of the electric car: 1828 - 1912, from Trouve to Morrison, http://factoidz.com/history-of-the-electric-car-1828-1912-from-trouve-to-morrison/, retrieved July 18, 2009 
9. ^ Today in Technology History: July 6, The Center for the Study of Technology and Science, http://www.tecsoc.org/pubs/history/2001/jul6.htm, retrieved 2009-07-14 
10. ^ (in English - Dutch available) Sibrandus Stratingh (1785-1841), Professor of Chemistry and Technology, University of Groningen, http://www.rug.nl/museum/geschiedenis/hoogleraren/stratingh, retrieved 2009-04-24 
11. ^ Data on the Hippomobile and hydrogen/fuel cells from TÜV SÜD Industrie Service GmbH
12. ^ Lien web|url=http://www.crucean.com/timeline.html#1903|title=American Motorsports Timeline|site=crucean.com}}
13. ^ Yates, Brock. "10 Best Moguls", in Car and Driver, 1/88, p.47.
14. ^ ^{a b c d e f g h} Csere, Csaba (January 1988). "10 Best Engineering Breakthroughs". Car and Driver 33 (7) , p. 62.
15. ^ Lyons, Pete. "10 Best Ahead-of-Their-Time Machines", in Car and Driver, 1/88, p.77.
16. ^ Lyons, p.78.
17. ^ Csere, pp. 60-61.
18. ^ Csere, p. 60.
19. ^ Lewis, Mary Beth. "Ten Best First Facts", in Car and Driver, 1/88, p.92.
20. ^ ^{a b} Lewis, p.92.
21. ^ Longstreet, Stephen. A Century on Wheels: The Story of Studebaker. New York: Henry Holt and Company. p. 121. 1st edn., 1952. 
22. ^ "» The first Peruvian car …en Perú – Travel Culture History News". Enperublog.com. 2009-05-07. http://enperublog.com/2009/05/07/the-first-peruvian-car/. Retrieved 2009-10-14. 
23. ^ Stanley Steamers amongst fastest road vehicles around 1906-1911
24. ^ ^{a b c} Csere, p. 61.
25. ^ Csere, p. 63.
26. ^ Michael Sedgwick & Mark Gillies, A-Z of Cars 1945-1970, 1986
27. ^ Hydrogen and the Rotary Engine on Mazda Global Website
28. ^ Hevesi D Claus Luthe, Car Design Innovator, Is Dead at 75New York Times, 10 April 2008
29. ^ Buckley M Used Car Buying Guide: Range Rover Channel 4 (UK) 24 Jan 2005

[edit] Further reading

• Berger, Michael L., The automobile in American history and culture: a reference guide, Greenwood Publishing Group, 2001. ISBN 978-0-313-24558-9
• Halberstam, David, The Reckoning, New York : Morrow, 1986. ISBN 0-688-04838-2
• Kay, Jane Holtz, Asphalt nation : how the automobile took over America, and how we can take it back, New York : Crown Publishers, 1997. ISBN 0-517-58702-5
• Krarup, M. C. (November 1906). "Automobiles for Every Use". The World's Work: A History of Our Time XIII: 8163–8178. http://books.google.com/?id=3IfNAAAAMAAJ&pg=PA8163. Retrieved 2009-07-10.  Includes photos of many c.1906 special purpose automobiles.
• Norman, Henry (April 1902). "The Coming of the Automobile". The World's Work: A History of Our Time V: 3304–3308. http://books.google.com/?id=DoDNAAAAMAAJ&pg=PA3304. Retrieved 2009-07-10. 

[edit] External links

• Automuseum Dr. Carl Benz, Ladenburg/Germany
• Bertha Benz Memorial Route
• University of Washington Libraries Digital Collections – Transportation photographs Digital collection depicting various modes of transportation (including automobiles) in the Pacific Northwest region and western USA during the first half of the 20th century.
• History of the automobile on About.com:Inventors site
• Automotive History - An ongoing photographic history of the automobile.
• Taking the Wheel, Manufacturers' catalogs from the first decade of American automobiles

Source

3)a written or printed work of fiction or nonfiction, usually on sheets of paper fastened or bound together within covers. 

There are reference books which describe and evaluate periodicals. For evaluations of specific periodicals, use:

LaGuardia, Cheryl, ed., with Bill and Linda Sternberg Katz. Magazines for Libraries. 17th ed. New York: Bowker, 2009.

(Olin Ref Z 6941 .K21 +; shelved at the reference desk)

An annotated listing by subject of over 6,000 periodicals. Each entry gives name of periodical, beginning publication date, publisher, editor, address, price and such information as indexing, size, and level of audience. Short abstracts describe the scope, political slant, and other aspects of the publication. Arrangement is topical, bringing magazines and journals on like subjects together. To find an individual title, use the title index at the end of the volume

Source.

4)In biology, reference collections, such as herbaria are an important sort of information about variations of populations within a species. They are also the repository of holotypes used as the official definition of species.

Source 

5)Automobiles reference collection is the choice that I would use most because the reason is that I like cars and I would like to have reference collection so I know more about it.

Source