Friday, September 3, 2010
Nissan S15 Vs Toyota AE86 Drifting
How did they Ruin it? They have their own drifting, same with Arab drifting and Canadian Drifting, Aussie drifting, etc. It dosnt really matter, if you care so much about hating on it, keep it to yourself
Tuesday, August 31, 2010
Saturday, August 28, 2010
Thursday, August 26, 2010
Wednesday, August 25, 2010
TURBO M3-FERRARI-ASTON-SKYLINE-PORCHE-MERCEDES-AUDI
so u make a car video... and u turn down the engines volume for this?
Monday, August 23, 2010
Amazing Japanese Drift (JZX100 vs B324R vs AE86)
@mytrollingacc hey just because they're professional racing drivers, doesn't mean they arent horrible drivers on the road. i mean you never know right?
Sunday, August 22, 2010
Best Motoring Nissan Gtr 34 VS 2 Ae86
wel no sh.it the corollas would win eventualy
the skylines tires got worn out and began understeering at the last lap.
if they had a pit stop after every lap the skyline would win.
its like saying the geo metro is faster because it never goes fast enough to drift and would win if the battle was 100 hours cause the corollas tires would pop.
time to declare the geo metro king
sunnyddude 1 hour ago
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AE86 VS SKYLINE R34
DK is amazing there is no replacement for skill but then again touge is perfect for lightweight cars with good horsepower
Please comment :
Friday, August 20, 2010
MONSTER DRIFT: Road America
he's so good at clutch kicking he has it sideways way before the corner
Please followers and comment :
Wednesday, August 18, 2010
Saturday, August 14, 2010
Nissan Skyline R33 Vs. Nissan Skyline R34
would be no skyline, which means this vid wouldn't be available for your fatass can sit there to watch and complain...hence I wouldn't be here either to point out 1 of many retarded mistakes that you make in life, and making you look like a total dumbass
Thursday, August 12, 2010
Honda Integra turbo vs. Nissan Skyline R34
Very best nissan sykline..
Please followers and comment :..
Tuesday, August 10, 2010
Sunday, August 8, 2010
Drifting (motorsport)
Drifting refers to a driving technique and to a motorsport where the driver intentionally over steers, causing loss of traction in the rear wheels through turns, while maintaining vehicle control and a high exit speed. A car is drifting when the rear slip angle is greater than the front slip angle prior to the corner apex, and the front wheels are pointing in the opposite direction to the turn (e.g. car is turning left, wheels are pointed right or vice versa), and the driver is controlling these factors. As a motor sport, professional drifting competitions are held across the world.
1 History
1.1 Present day
2 Drift competition
3 Cars
4 Drift tuning
4.1 Drive train
4.2 Suspension
4.3 Cockpit
4.4 Engine
4.5 Steering
4.6 Body
4.7 Tires
5 R/C drifting
6 Drifting in games
6.1 Console and PC-based games
6.2 Online games
6.3 Mobile-based games
7 References
This section does not cite any references or sources.
Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (March 2008)
Modern drifting as a sport started out as a racing technique popular in the All Japan Touring Car Championship races over 30 years ago. Motorcycling legend turned driver, Kunimitsu Takahashi, was the foremost creator of drifting techniques in the 1970s. He is noted for hitting the apex (the point where the car is closest to the inside of a turn) at high speed and then drifting through the corner, preserving a high exit speed. This earned him several championships and a legion of fans who enjoyed the spectacle of smoking tires. The bias ply racing tires of the 1960s-1980s lent themselves to driving styles with a high slip angle. As professional racers in Japan drove this way, so did the street racers.
Keiichi Tsuchiya (known as the Dorikin/Drift King) became particularly interested by Takahashi's drift techniques. Tsuchiya began practicing his drifting skills on the mountain roads of Japan, and quickly gained a reputation amongst the racing crowd. In 1987, several popular car magazines and tuning garages agreed to produce a video of Tsuchiya's drifting skills. The video, known as Pluspy, became a hit and inspired many of the professional drifting drivers on the circuits today. In 1988, alongside Option magazine founder and chief editor Daijiro Inada, he would help to organize one of the first events specifically for drifting called the D1 Grand Prix. He also drifted every turn in Tsukuba Circuit in Japan.
One of the earliest recorded drift events outside Japan was in 1996, held at Willow Springs Raceway in Willow Springs, California hosted by the Japanese drifting magazine and organization Option. Inada, founder of the D1 Grand Prix in Japan, the NHRA Funny Car drag racer Kenji Okazaki and Keiichi Tsuchiya, who also gave demonstrations in a Nissan 180SX that the magazine brought over from Japan, judged the event with Rhys Millen and Bryan Norris being two of the entrants.[1] Drifting has since exploded into a massively popular form of motorsport in North America, Australasia, and Europe. One of the first drifting competitions in Europe was hosted in 2002 by the OPT drift club at Turweston, run by a tuning business called Option Motorsport. The club held a championship called D1UK, then later became the Autoglym Drift Championship. For legal reasons, the business was forced to drop the Option and D1 name. The club has since been absorbed into the D1 Grand Prix franchise as a national series.
Present day
Drifting has evolved into a competitive sport where drivers compete mostly in rear wheel drive cars, and occasionally all wheel drive cars, to earn points from judges based on various factors. At the top levels of competition, the D1 Grand Prix from Japan and now with a full series in the US have pioneered the sport. Others in Malaysia,[citation needed] Australia, Pro-drift in Europe, BDC in the United Kingdom,URC (United Racers Club) in Bangladesh, SUPERDRIFT in Italy, Formula D in the United States, King of Europe Drift Series in Europe, Drift Mania in Canada, and the NZ Drift Series in New Zealand have also come along to further expand the sport into a legitimate motor sport worldwide. The drivers within these series were originally influenced by the pioneers from D1 Japan and are able to keep their cars sliding for extended periods of time, often linking several turns. Drifting with decades of race history and its relatively recent fame in the United States (the first official drift points race of D1 Grand Prix was held in the summer of 2003) has become its own authority yet Formula D remains as the largest and most prestigious championship in North America with an international field of professionally supported drivers.
Amateur "Tafheet" or "Hjwalah" drifting on public roads is a significant problem in Saudi Arabia
Drift competition
Drifting competitions are judged based on line, angle, speed, and show factor. Line involves taking the correct line, which is usually announced beforehand by judges. The show factor is based on multiple things, such as the amount of smoke, how close the car is to the wall, and the crowd's reaction. Angle is the angle of a car in a drift, speed is the speed entering a turn, the speed through a turn, and the speed exiting the turn; faster is better.
Team Drift Competition in Melbourne.The judging takes place on just a small part of the circuit, a few linking corners that provide good viewing, and opportunities for drifting. The rest of the circuit is irrelevant, except as it pertains to controlling the temperature of the tires and setting the car up for the first judged corner. In the tandem passes, the lead driver often feints his or her entry to the first corner to upset the chase driver.
There are typically two sessions, a qualifying/practice session, and a final session. In the qualifying sessions, referred as Tansou (単走:speed run), drifters get individual passes in front of judges (who may or may not be the final judges) to try and make the final 16. This is often on the day preceding the final.
The finals are tandem passes, referred as Tsuiso (追走:chase attack). Drivers are paired off, and each heat comprises two passes, with each driver taking a turn to lead. The best of the 8 heats go to the next 4, to the next 2, to the final. The passes are judged as explained above, however there are some provisos such as:
Overtaking the lead car under drift conditions almost always wins that pass.
Overtaking the lead car under grip conditions automatically forfeits that pass.
Spinning forfeits that pass, unless the other driver also spins.
Increasing the lead under drift conditions helps to win that pass.
Maintaining a close gap while chasing under drift conditions helps to win that pass.
Points are awarded for each pass, and usually one driver prevails. Sometimes the judges cannot agree, or cannot decide, or a crowd vocally disagrees with the judge's decision.[citation needed] In such cases more passes may be run until a winner is produced. Sometimes mechanical failure determines the battle's outcome, either during or preceding a heat. If a car cannot enter a tandem battle, the remaining entrant (who automatically advances) will give a solo demonstration pass. In the event of apparently close or tied runs, crowds often demonstrate their desire for another run with chants of 'one more time'.[4]
There is some regional variation. For example in Australia, the chase car is judged on how accurately it emulates the drift of the lead car, as opposed to being judged on its own merit, this is only taken into consideration by the judges if the lead car is on the appropriate racing line. Other variations of the tansou/tsuiso and the tansou only method is the multi-car group judging, seen in the Drift Tengoku videos where the four car team is judged in groups.[citation needed]
Drifting Toyota AE86Usually, drift cars are light to moderate weight rear-wheel-drive coupes and sedans over a large range of power levels. In Japan and worldwide, the most common drift vehicles are the Nissan Silvia/180SX/200SX/240SX, Toyota AE86, Mazda RX-7, Mazda RX-8, Infiniti G35 Coupe, Nissan A31 Cefiro, Nissan C33 Laurel, Nissan Skyline (AWD versions, such as the GT-R, are often converted to RWD), Nissan 350Z, Toyota Altezza/Lexus IS, Toyota Chaser, Toyota Mark II, Toyota Soarer, Honda S2000, Toyota Supra, Ford Mustang and Mazda Miata/MX-5.
US drift competitions usually use the same cars, plus Chrysler LLC's Dodge Charger, and Dodge Viper SRT-10, and General Motors's Chevrolet Corvette, and Pontiac Solstice.[5]
Drifters in other countries often use local favorites, such as the Vauxhall Omega in the UK and Ireland, BMW 3 Series, BMW M3, Ford Sierra, Volvo 240, Volvo 340 (other parts of Europe), Mercedes-Benz cars, Porsche cars, and Alfa Romeo 75.
1 History
1.1 Present day
2 Drift competition
3 Cars
4 Drift tuning
4.1 Drive train
4.2 Suspension
4.3 Cockpit
4.4 Engine
4.5 Steering
4.6 Body
4.7 Tires
5 R/C drifting
6 Drifting in games
6.1 Console and PC-based games
6.2 Online games
6.3 Mobile-based games
7 References
This section does not cite any references or sources.
Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (March 2008)
Modern drifting as a sport started out as a racing technique popular in the All Japan Touring Car Championship races over 30 years ago. Motorcycling legend turned driver, Kunimitsu Takahashi, was the foremost creator of drifting techniques in the 1970s. He is noted for hitting the apex (the point where the car is closest to the inside of a turn) at high speed and then drifting through the corner, preserving a high exit speed. This earned him several championships and a legion of fans who enjoyed the spectacle of smoking tires. The bias ply racing tires of the 1960s-1980s lent themselves to driving styles with a high slip angle. As professional racers in Japan drove this way, so did the street racers.
Keiichi Tsuchiya (known as the Dorikin/Drift King) became particularly interested by Takahashi's drift techniques. Tsuchiya began practicing his drifting skills on the mountain roads of Japan, and quickly gained a reputation amongst the racing crowd. In 1987, several popular car magazines and tuning garages agreed to produce a video of Tsuchiya's drifting skills. The video, known as Pluspy, became a hit and inspired many of the professional drifting drivers on the circuits today. In 1988, alongside Option magazine founder and chief editor Daijiro Inada, he would help to organize one of the first events specifically for drifting called the D1 Grand Prix. He also drifted every turn in Tsukuba Circuit in Japan.
One of the earliest recorded drift events outside Japan was in 1996, held at Willow Springs Raceway in Willow Springs, California hosted by the Japanese drifting magazine and organization Option. Inada, founder of the D1 Grand Prix in Japan, the NHRA Funny Car drag racer Kenji Okazaki and Keiichi Tsuchiya, who also gave demonstrations in a Nissan 180SX that the magazine brought over from Japan, judged the event with Rhys Millen and Bryan Norris being two of the entrants.[1] Drifting has since exploded into a massively popular form of motorsport in North America, Australasia, and Europe. One of the first drifting competitions in Europe was hosted in 2002 by the OPT drift club at Turweston, run by a tuning business called Option Motorsport. The club held a championship called D1UK, then later became the Autoglym Drift Championship. For legal reasons, the business was forced to drop the Option and D1 name. The club has since been absorbed into the D1 Grand Prix franchise as a national series.
Present day
Drifting has evolved into a competitive sport where drivers compete mostly in rear wheel drive cars, and occasionally all wheel drive cars, to earn points from judges based on various factors. At the top levels of competition, the D1 Grand Prix from Japan and now with a full series in the US have pioneered the sport. Others in Malaysia,[citation needed] Australia, Pro-drift in Europe, BDC in the United Kingdom,URC (United Racers Club) in Bangladesh, SUPERDRIFT in Italy, Formula D in the United States, King of Europe Drift Series in Europe, Drift Mania in Canada, and the NZ Drift Series in New Zealand have also come along to further expand the sport into a legitimate motor sport worldwide. The drivers within these series were originally influenced by the pioneers from D1 Japan and are able to keep their cars sliding for extended periods of time, often linking several turns. Drifting with decades of race history and its relatively recent fame in the United States (the first official drift points race of D1 Grand Prix was held in the summer of 2003) has become its own authority yet Formula D remains as the largest and most prestigious championship in North America with an international field of professionally supported drivers.
Amateur "Tafheet" or "Hjwalah" drifting on public roads is a significant problem in Saudi Arabia
Drift competition
Drifting competitions are judged based on line, angle, speed, and show factor. Line involves taking the correct line, which is usually announced beforehand by judges. The show factor is based on multiple things, such as the amount of smoke, how close the car is to the wall, and the crowd's reaction. Angle is the angle of a car in a drift, speed is the speed entering a turn, the speed through a turn, and the speed exiting the turn; faster is better.
Team Drift Competition in Melbourne.The judging takes place on just a small part of the circuit, a few linking corners that provide good viewing, and opportunities for drifting. The rest of the circuit is irrelevant, except as it pertains to controlling the temperature of the tires and setting the car up for the first judged corner. In the tandem passes, the lead driver often feints his or her entry to the first corner to upset the chase driver.
There are typically two sessions, a qualifying/practice session, and a final session. In the qualifying sessions, referred as Tansou (単走:speed run), drifters get individual passes in front of judges (who may or may not be the final judges) to try and make the final 16. This is often on the day preceding the final.
The finals are tandem passes, referred as Tsuiso (追走:chase attack). Drivers are paired off, and each heat comprises two passes, with each driver taking a turn to lead. The best of the 8 heats go to the next 4, to the next 2, to the final. The passes are judged as explained above, however there are some provisos such as:
Overtaking the lead car under drift conditions almost always wins that pass.
Overtaking the lead car under grip conditions automatically forfeits that pass.
Spinning forfeits that pass, unless the other driver also spins.
Increasing the lead under drift conditions helps to win that pass.
Maintaining a close gap while chasing under drift conditions helps to win that pass.
Points are awarded for each pass, and usually one driver prevails. Sometimes the judges cannot agree, or cannot decide, or a crowd vocally disagrees with the judge's decision.[citation needed] In such cases more passes may be run until a winner is produced. Sometimes mechanical failure determines the battle's outcome, either during or preceding a heat. If a car cannot enter a tandem battle, the remaining entrant (who automatically advances) will give a solo demonstration pass. In the event of apparently close or tied runs, crowds often demonstrate their desire for another run with chants of 'one more time'.[4]
There is some regional variation. For example in Australia, the chase car is judged on how accurately it emulates the drift of the lead car, as opposed to being judged on its own merit, this is only taken into consideration by the judges if the lead car is on the appropriate racing line. Other variations of the tansou/tsuiso and the tansou only method is the multi-car group judging, seen in the Drift Tengoku videos where the four car team is judged in groups.[citation needed]
Drifting Toyota AE86Usually, drift cars are light to moderate weight rear-wheel-drive coupes and sedans over a large range of power levels. In Japan and worldwide, the most common drift vehicles are the Nissan Silvia/180SX/200SX/240SX, Toyota AE86, Mazda RX-7, Mazda RX-8, Infiniti G35 Coupe, Nissan A31 Cefiro, Nissan C33 Laurel, Nissan Skyline (AWD versions, such as the GT-R, are often converted to RWD), Nissan 350Z, Toyota Altezza/Lexus IS, Toyota Chaser, Toyota Mark II, Toyota Soarer, Honda S2000, Toyota Supra, Ford Mustang and Mazda Miata/MX-5.
US drift competitions usually use the same cars, plus Chrysler LLC's Dodge Charger, and Dodge Viper SRT-10, and General Motors's Chevrolet Corvette, and Pontiac Solstice.[5]
Drifters in other countries often use local favorites, such as the Vauxhall Omega in the UK and Ireland, BMW 3 Series, BMW M3, Ford Sierra, Volvo 240, Volvo 340 (other parts of Europe), Mercedes-Benz cars, Porsche cars, and Alfa Romeo 75.
Friday, August 6, 2010
What Was The First Car?
Several Italians recorded designs for wind driven vehicles. The first was Guido da Vigevano in 1335. It was a windmill type drive to gears and thus to wheels. Vaturio designed a similar vehicle which was also never built. Later Leonardo da Vinci designed a clockwork driven tricycle with tiller steering and a differential mechanism between the rear wheels.
A Catholic priest named Father Ferdinand Verbiest has been said to have built a steam powered vehicle for the Chinese Emperor Chien Lung in about 1678. There is no information about the vehicle, only the event. Since Thomas Newcomen didn't build his first steam engine until 1712 we can guess that this was possibly a model vehicle powered by a mechanism like Hero's steam engine, a spinning wheel with jets on the periphery. Newcomen's engine had a cylinder and a piston and was the first of this kind, and it used steam as a condensing agent to form a vacuum and with an overhead walking beam, pull on a rod to lift water. It was an enormous thing and was strictly stationary. The steam was not under pressure, just an open boiler piped to the cylinder. It used the same vacuum principle that Thomas Savery had patented to lift water directly with the vacuum, which would have limited his pump to less than 32 feet of lift. Newcomen's lift would have only been limited by the length of the rod and the strength of the valve at the bottom. Somehow Newcomen was not able to separate his invention from that of Savery and had to pay for Savery's rights. In 1765 James Watt developed the first pressurized steam engine which proved to be much more efficient and compact that the Newcomen engine.
The first vehicle to move under its own power for which there is a record was designed by Nicholas Joseph Cugnot and constructed by M. Brezin in 1769. A replica of this vehicle is on display at the Conservatoire des Arts et Metiers, in Paris. I believe that the Smithsonian Museum in Washington D. C. also has a large (half size ?) scale model. A second unit was built in 1770 which weighed 8000 pounds and had a top speed on 2 miles per hour and on the cobble stone streets of Paris this was probably as fast as anyone wanted to go it. The picture shows the first model on its first drive around Paris were it hit and knocked down a stone wall. It also had a tendency to tip over frontward unless it was counterweighted with a canon in the rear. the purpose of the vehicle was to haul canons around town.
The early steam powered vehicles were so heavy that they were only practical on a perfectly flat surface as strong as iron. A road thus made out of iron rails became the norm for the next hundred and twenty five years. The vehicles got bigger and heavier and more powerful and as such they were eventually capable of pulling a train of many cars filled with freight and passengers.
As the picture at the right shows, many attempts were being made in England by the 1830's to develop a practical vehicle that didn't need rails. A series of accidents and propaganda from the established railroads caused a flurry of restrictive legislation to be passed and the development of the automobile bypassed England. Several commercial vehicles were built but they were more like trains without tracks.
The development of the internal combustion engine had to wait until a fuel was available to combust internally. Gunpowder was tried but didn't work out. Gunpowder carburetors are still hard to find. The first gas really did use gas. They used coal gas generated by heating coal in a pressure vessel or boiler. A Frenchman named Etienne Lenoir patented the first practical gas engine in Paris in 1860 and drove a car based on the design from Paris to Joinville in 1862. His one-half horse power engine had a bore of 5 inches and a 24 inch stroke. It was big and heavy and turned 100 rpm. Lenoir died broke in 1900.
Lenoir had a separate mechanism to compress the gas before combustion. In 1862, Alphonse Bear de Rochas figured out how to compress the gas in the same cylinder in which it was to burn, which is the way we still do it. This process of bringing the gas into the cylinder, compressing it, combusting the compressed mixture, then exhausting it is know as the Otto cycle, or four cycle engine. Lenoir claimed to have run the car on benzene and his drawings show an electric spark ignition. If so, then his vehicle was the first to run on petroleum based fuel, or petrol, or what we call gas, short for gasoline.
Siegfried Marcus, of Mecklenburg, built a can in 1868 and showed one at the Vienna Exhibition of 1873. His later car was called the Strassenwagen had about 3/4 horse power at 500 rpm. It ran on crude wooden wheels with iron rims and stopped by pressing wooden blocks against the iron rims, but it had a clutch, a differential and a magneto ignition. One of the four cars which Marcus built is in the Vienna Technical Museum and can still be driven under its own power.
In 1876, Nokolaus Otto patented the Otto cycle engine, de Rochas had neglected to do so, and this later became the basis for Daimler and Benz breaking the Otto patent by claiming prior art from de Rochas.
The picture to the left, taken in 1885, is of Gottllieb Daimler's workshop in Bad Cannstatt where he built the wooden motorcycle shown. Daimler's son Paul rode this motorcycle from Cannstatt to Unterturkheim and back on November 10, 1885. Daimler used a hot tube ignition system to get his engine speed up to 1000 rpm
The previous August, Karl Benz had already driven his light, tubular framed tricycle around the Neckar valley, only 60 miles from where Daimler lived and worked. They never met. Frau Berta Benz took Karl's car one night and made the first long car trip to see her mother, traveling 62 miles from Mannheim to Pforzheim in 1888.
Also in August 1888, William Steinway, owner of Steinway & Sons piano factory, talked to Daimler about US manufacturing right and by September had a deal. By 1891 the Daimler Motor Company, owned by Steinway, was producing petrol engines for tramway cars, carriages, quadricycles, fire engines and boats in a plant in Hartford, CT.
Steam cars had been built in America since before the Civil War but the early one were like miniature locomotives. In 1871, Dr. J. W. Carhart, professor of physics at Wisconsin State University, and the J. I. Case Company built a working steam car. It was practical enough to inspire the State of Wisconsin to offer a $10,000 prize to the winner of a 200 mile race in 1878.>
The 200 mile race had seven entries, or which two showed up for the race. One car was sponsored by the city of Green Bay and the other by the city of Oshkosh. The Green Bay car was the fastest but broke down and the Oshkosh car finished with an average speed of 6 mph.
From this time until the end of the century, nearly every community in America had a mad scientist working on a steam car. Many old news papers tell stories about the trials and failures of these would be inventors.
By 1890 Ransom E. Olds had built his second steam powered car, pictured at left. One was sold to a buyer in India, but the ship it was on was lost at sea.
Running by February, 1893 and ready for road trials by September, 1893 the car built by Charles and Frank Duryea, brothers, was the first gasoline powered car in America. The first run on public roads was made on September 21, 1893 in Springfield, MA. They had purchased a used horse drawn buggy for $70 and installed a 4 HP, single cylinder gasoline engine. The car (buggy) had a friction transmission, spray carburetor and low tension ignition. It must not have run very well because Frank didn't drive it again until November 10 when it was reported by the Springfield Morning Union newspaper. This car was put into storage in 1894 and stayed there until 1920 when it was rescued by Inglis M. Uppercu and presented to the United States National Museum.
Henry Ford had an engine running by 1893 but it was 1896 before he built his first car. By the end of the year Ford had sold his first car, which he called a Quadracycle, for $200 and used the money to build another one. With the financial backing of the Mayor of Detroit, William C. Maybury and other wealthy Detroiters, Ford formed the Detroit Automobile Company in 1899. A few prototypes were built but no production cars were ever made by this company. It was dissolved in January 1901. Ford would not offer a car for sale until 1903.
The first closed circuit automobile race held at Narragansett Park, Rhode Island, in September 1896. All four cars to the left are Duryeas, on the right is a Morris & Salom Electrobat. Thirteen Duryeas of the same design were produced in 1896, making it the first production car.
At left is pictured the factory with produced the 13 Duryeas. In 1898 the brothers went their separate ways and the Duryea Motor Wagon Company was closed. Charles, who was born in 1861 and was eight years older than Frank had taken advantage of Frank in publicity and patents. Frank went out on his own and eventually joined with Stevens Arms and Tool Company to form the Stevens-Duryea Company which was sold to Westinghouse in 1915. Charles tried to produce some of his own hare-brained ideas with various companies until 1916. Thereafter he limited himself to writing technical book and articles. He died in 1938. Frank got a half a million dollars for the Westinghouse deal and lived in comfort until his death in 1967, just seven months from his 98th birthday.
In this engraving Ransom Eli Olds is at the tiller of his first petrol powered car. Riding beside him is Frank G. Clark, who built the body and in the back are their wives. This car was running by 1896 but production of the Olds Motor Vehicle Company of Detroit did not begin until 1899. After an early failure with luxury vehicles they established the first really successful production with the classic Curved Dash Oldsmobile.
The Curved Dash Oldsmobile had a single cylinder engine, tiller steering and chain drive. It sold for $650. In 1901 600 were sold and the next years were 1902 - 2,500, 1903 - 4,000, 1904 - 5,000. In August 1904 Ransom Olds left the company to form Reo (for Ransom Eli Olds). Ransom E. Olds was the first mass producer of gasoline powered automobiles in the United States, even though Duryea was the first auto manufacturer with their 13 cars.
Ransom Olds produced a small number of electric cars around the turn of the century. Little is known about them and none survive. The picture at left is the only known picture of one of these rare cars. It was taken at was taken at Belle Island Park, Michigan. In 1899 and 1900, electrics outsold all other type of cars and the most popular electric was the Columbia built by Colonel Albert Augustus Pope, owner of American Bicycle Company.
an interesting footnote to the Olds electric.
J. A. Koosen and H. Lawson in a 1895 Lutzmann. This is typical of American design in the mid 1890's. It was truly a horseless carriage. Tiller steering, engine under the floorboards, very high center of gravity, not designed for road travel. Imagine climbing into one of these and trying to drive across town and around a few corners. Kind of scary, huh?
This Daimler of 1899 was owned by Lionel Rothchild. The European design is much advanced of the American designs of the same time. Gottlieb Daimler took part in the London-to-Brighton run in 1896 but died in 1900 at the age of 66 without ever meeting Benz. His German engines powered the automobile industries of Britain and France.
The 1908 Haynes in the back ground shows the rapid development of the petrol powered car when compared to the 1894 model in the foreground. Consider the present difference between a 1998 Tarus and the 14 year old 1984 Tarus. Some difference. Old man Haynes claimed to have build the 1894 car in 1893 but had no proof.
The Rolls Royce Silver Ghost of 1906 was a six cylinder car that stayed in production until 1925. It represented the best engineering and technology available at the time and these cars still run smoothly and silently today. This period marked the end of the beginning of the automobile.
A Catholic priest named Father Ferdinand Verbiest has been said to have built a steam powered vehicle for the Chinese Emperor Chien Lung in about 1678. There is no information about the vehicle, only the event. Since Thomas Newcomen didn't build his first steam engine until 1712 we can guess that this was possibly a model vehicle powered by a mechanism like Hero's steam engine, a spinning wheel with jets on the periphery. Newcomen's engine had a cylinder and a piston and was the first of this kind, and it used steam as a condensing agent to form a vacuum and with an overhead walking beam, pull on a rod to lift water. It was an enormous thing and was strictly stationary. The steam was not under pressure, just an open boiler piped to the cylinder. It used the same vacuum principle that Thomas Savery had patented to lift water directly with the vacuum, which would have limited his pump to less than 32 feet of lift. Newcomen's lift would have only been limited by the length of the rod and the strength of the valve at the bottom. Somehow Newcomen was not able to separate his invention from that of Savery and had to pay for Savery's rights. In 1765 James Watt developed the first pressurized steam engine which proved to be much more efficient and compact that the Newcomen engine.
The first vehicle to move under its own power for which there is a record was designed by Nicholas Joseph Cugnot and constructed by M. Brezin in 1769. A replica of this vehicle is on display at the Conservatoire des Arts et Metiers, in Paris. I believe that the Smithsonian Museum in Washington D. C. also has a large (half size ?) scale model. A second unit was built in 1770 which weighed 8000 pounds and had a top speed on 2 miles per hour and on the cobble stone streets of Paris this was probably as fast as anyone wanted to go it. The picture shows the first model on its first drive around Paris were it hit and knocked down a stone wall. It also had a tendency to tip over frontward unless it was counterweighted with a canon in the rear. the purpose of the vehicle was to haul canons around town.
The early steam powered vehicles were so heavy that they were only practical on a perfectly flat surface as strong as iron. A road thus made out of iron rails became the norm for the next hundred and twenty five years. The vehicles got bigger and heavier and more powerful and as such they were eventually capable of pulling a train of many cars filled with freight and passengers.
As the picture at the right shows, many attempts were being made in England by the 1830's to develop a practical vehicle that didn't need rails. A series of accidents and propaganda from the established railroads caused a flurry of restrictive legislation to be passed and the development of the automobile bypassed England. Several commercial vehicles were built but they were more like trains without tracks.
The development of the internal combustion engine had to wait until a fuel was available to combust internally. Gunpowder was tried but didn't work out. Gunpowder carburetors are still hard to find. The first gas really did use gas. They used coal gas generated by heating coal in a pressure vessel or boiler. A Frenchman named Etienne Lenoir patented the first practical gas engine in Paris in 1860 and drove a car based on the design from Paris to Joinville in 1862. His one-half horse power engine had a bore of 5 inches and a 24 inch stroke. It was big and heavy and turned 100 rpm. Lenoir died broke in 1900.
Lenoir had a separate mechanism to compress the gas before combustion. In 1862, Alphonse Bear de Rochas figured out how to compress the gas in the same cylinder in which it was to burn, which is the way we still do it. This process of bringing the gas into the cylinder, compressing it, combusting the compressed mixture, then exhausting it is know as the Otto cycle, or four cycle engine. Lenoir claimed to have run the car on benzene and his drawings show an electric spark ignition. If so, then his vehicle was the first to run on petroleum based fuel, or petrol, or what we call gas, short for gasoline.
Siegfried Marcus, of Mecklenburg, built a can in 1868 and showed one at the Vienna Exhibition of 1873. His later car was called the Strassenwagen had about 3/4 horse power at 500 rpm. It ran on crude wooden wheels with iron rims and stopped by pressing wooden blocks against the iron rims, but it had a clutch, a differential and a magneto ignition. One of the four cars which Marcus built is in the Vienna Technical Museum and can still be driven under its own power.
In 1876, Nokolaus Otto patented the Otto cycle engine, de Rochas had neglected to do so, and this later became the basis for Daimler and Benz breaking the Otto patent by claiming prior art from de Rochas.
The picture to the left, taken in 1885, is of Gottllieb Daimler's workshop in Bad Cannstatt where he built the wooden motorcycle shown. Daimler's son Paul rode this motorcycle from Cannstatt to Unterturkheim and back on November 10, 1885. Daimler used a hot tube ignition system to get his engine speed up to 1000 rpm
The previous August, Karl Benz had already driven his light, tubular framed tricycle around the Neckar valley, only 60 miles from where Daimler lived and worked. They never met. Frau Berta Benz took Karl's car one night and made the first long car trip to see her mother, traveling 62 miles from Mannheim to Pforzheim in 1888.
Also in August 1888, William Steinway, owner of Steinway & Sons piano factory, talked to Daimler about US manufacturing right and by September had a deal. By 1891 the Daimler Motor Company, owned by Steinway, was producing petrol engines for tramway cars, carriages, quadricycles, fire engines and boats in a plant in Hartford, CT.
Steam cars had been built in America since before the Civil War but the early one were like miniature locomotives. In 1871, Dr. J. W. Carhart, professor of physics at Wisconsin State University, and the J. I. Case Company built a working steam car. It was practical enough to inspire the State of Wisconsin to offer a $10,000 prize to the winner of a 200 mile race in 1878.>
The 200 mile race had seven entries, or which two showed up for the race. One car was sponsored by the city of Green Bay and the other by the city of Oshkosh. The Green Bay car was the fastest but broke down and the Oshkosh car finished with an average speed of 6 mph.
From this time until the end of the century, nearly every community in America had a mad scientist working on a steam car. Many old news papers tell stories about the trials and failures of these would be inventors.
By 1890 Ransom E. Olds had built his second steam powered car, pictured at left. One was sold to a buyer in India, but the ship it was on was lost at sea.
Running by February, 1893 and ready for road trials by September, 1893 the car built by Charles and Frank Duryea, brothers, was the first gasoline powered car in America. The first run on public roads was made on September 21, 1893 in Springfield, MA. They had purchased a used horse drawn buggy for $70 and installed a 4 HP, single cylinder gasoline engine. The car (buggy) had a friction transmission, spray carburetor and low tension ignition. It must not have run very well because Frank didn't drive it again until November 10 when it was reported by the Springfield Morning Union newspaper. This car was put into storage in 1894 and stayed there until 1920 when it was rescued by Inglis M. Uppercu and presented to the United States National Museum.
Henry Ford had an engine running by 1893 but it was 1896 before he built his first car. By the end of the year Ford had sold his first car, which he called a Quadracycle, for $200 and used the money to build another one. With the financial backing of the Mayor of Detroit, William C. Maybury and other wealthy Detroiters, Ford formed the Detroit Automobile Company in 1899. A few prototypes were built but no production cars were ever made by this company. It was dissolved in January 1901. Ford would not offer a car for sale until 1903.
The first closed circuit automobile race held at Narragansett Park, Rhode Island, in September 1896. All four cars to the left are Duryeas, on the right is a Morris & Salom Electrobat. Thirteen Duryeas of the same design were produced in 1896, making it the first production car.
At left is pictured the factory with produced the 13 Duryeas. In 1898 the brothers went their separate ways and the Duryea Motor Wagon Company was closed. Charles, who was born in 1861 and was eight years older than Frank had taken advantage of Frank in publicity and patents. Frank went out on his own and eventually joined with Stevens Arms and Tool Company to form the Stevens-Duryea Company which was sold to Westinghouse in 1915. Charles tried to produce some of his own hare-brained ideas with various companies until 1916. Thereafter he limited himself to writing technical book and articles. He died in 1938. Frank got a half a million dollars for the Westinghouse deal and lived in comfort until his death in 1967, just seven months from his 98th birthday.
In this engraving Ransom Eli Olds is at the tiller of his first petrol powered car. Riding beside him is Frank G. Clark, who built the body and in the back are their wives. This car was running by 1896 but production of the Olds Motor Vehicle Company of Detroit did not begin until 1899. After an early failure with luxury vehicles they established the first really successful production with the classic Curved Dash Oldsmobile.
The Curved Dash Oldsmobile had a single cylinder engine, tiller steering and chain drive. It sold for $650. In 1901 600 were sold and the next years were 1902 - 2,500, 1903 - 4,000, 1904 - 5,000. In August 1904 Ransom Olds left the company to form Reo (for Ransom Eli Olds). Ransom E. Olds was the first mass producer of gasoline powered automobiles in the United States, even though Duryea was the first auto manufacturer with their 13 cars.
Ransom Olds produced a small number of electric cars around the turn of the century. Little is known about them and none survive. The picture at left is the only known picture of one of these rare cars. It was taken at was taken at Belle Island Park, Michigan. In 1899 and 1900, electrics outsold all other type of cars and the most popular electric was the Columbia built by Colonel Albert Augustus Pope, owner of American Bicycle Company.
an interesting footnote to the Olds electric.
J. A. Koosen and H. Lawson in a 1895 Lutzmann. This is typical of American design in the mid 1890's. It was truly a horseless carriage. Tiller steering, engine under the floorboards, very high center of gravity, not designed for road travel. Imagine climbing into one of these and trying to drive across town and around a few corners. Kind of scary, huh?
This Daimler of 1899 was owned by Lionel Rothchild. The European design is much advanced of the American designs of the same time. Gottlieb Daimler took part in the London-to-Brighton run in 1896 but died in 1900 at the age of 66 without ever meeting Benz. His German engines powered the automobile industries of Britain and France.
The 1908 Haynes in the back ground shows the rapid development of the petrol powered car when compared to the 1894 model in the foreground. Consider the present difference between a 1998 Tarus and the 14 year old 1984 Tarus. Some difference. Old man Haynes claimed to have build the 1894 car in 1893 but had no proof.
The Rolls Royce Silver Ghost of 1906 was a six cylinder car that stayed in production until 1925. It represented the best engineering and technology available at the time and these cars still run smoothly and silently today. This period marked the end of the beginning of the automobile.
Monday, August 2, 2010
Saturday, July 24, 2010
2007 Ford Mustang Shelby GT vs. 2008 Subaru Impreza WRX STI
i have seen that version and i still don't like it.Subaru should have done it like Mitsubishi:The hatch version should be based on the sedan,and not the sedan on the hatch.
Monday, July 19, 2010
Monday, June 21, 2010
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