In 1900 the average American traveled about 1200 miles in a lifetime, mostly on foot, and mostly within his or her own village or town. By the end of the century, the typical American adult would travel some 12,000 miles by automobile alone, in just one year. About 8,000 cars were registered in the America at the start of the 20th century. There are now some half billion in the world, with one-third in the United States, where more than 1.5 trillion miles are traveled each year. How the auto industry grew from a few thousand Tin Lizzies to the modern, aerodynamic and multipurpose vehicles of today is a chronicle of engineering at its most resourceful – from materials development to mass production techniques. For hundreds of years, humans have attempted to develop means for faster, more economical travel. Vehicles have been powered by humans, animals, springs, clockwork, and wind. In 1769, Frenchman Nicolas-Joseph Cugnot built the first automobile, which was actually a steam-powered tricycle.
For much of the 19th century, steam power prevailed, despite the danger of boiler explosions and unpleasant odors left by exhaust fumes. Electric cars made their appearance in the late 1800s. Cleaner than steam-powered cars, they had a large bank of storage batteries under the hood. They could travel at 10 to 20 miles per hour for a distance of 50 miles before the batteries needed recharging. In the second half of the 19th century, Siegfried Marcus of Austria created the forerunner of the modern automobile, German engineer Gottlieb Daimler put a gasoline-powered engine on a bicycle, and Karl Benz followed with the first gasoline car. By 1900 a typical automobile in the United States looked something like this: It was shaped like a box, much like a horseless carriage, with little protection from rain, dust, or other hazards. It was started by a hand-crank – a dangerous undertaking since a backfiring engine could turn the crank into a whirling weapon known to shatter bones.
The Essay on Balloon Powered Car
A balloon-powered car is powered by the air released in the straw. One must blow into the straw which inflates the balloon. When you blow up the balloon, set your racer down, and let it go, escaping air from the balloon rushes out of the straw causing propulsion. The principle at work is Newton’s Third Law of Motion, which states that for every action, there is an equal and opposite ...
Engines were mounted haphazardly under the body, and steering was often by tiller. All of the parts including the gears and drive systems were exposed to the elements. Early tires were solid rubber, and did not cushion bumps. The arrival of pneumatic tires made the ride more comfortable, but punctures every 10 or 20 miles were the norm. Kerosene side lamps and smelly acetylene head lamps lit the traveler’s way. There were no shock absorbers or heating systems. People who drove autos in the early days were seen as heroic adventurers. Backyard tinkers and bicycle makers were the auto repairmen of the day, and owners were encouraged to carry repair kits that listed at least 60 things one should not be without on the road – mastic to seal leaks in the gas line, extra hoses, wire, spark plugs, towing cable, oil, grease, and a can of gasoline with funnel and chamois for straining. By 1900 there were 50 automobile-manufacturing companies and some 8,000 cars registered in the United States.
The Term Paper on Running Head Health Care part 1
Running head: HEALTH CARE Health Care for Families and People with Disabilities [author's name] [author's affiliation] Health Care for Families and People with Disabilities Disability is defined by Newacheck and Halfon (1998) as a long-term reduction in ability to conduct social role activities because of a chronic physical or mental condition. Krahn (as cited in Krahn, Hammond, & Turner, ...
Each car was hand-made and cost about $1,550. With an average wage of $12.74 per week, only the wealthy could afford cars. The masses rode horses, hopped trains, or walked. It was 20th century engineering, through the advent of mass production, that opened the door to mass car ownership. The first to originate this key industrial innovation was Ransom E. Olds in 1901, who had his workers wheel carts of car parts to each car frame during production. This method boosted factory output from 425 cars a year to 2500 in 1907. In 1908, Henry Ford – Olds’ great rival – improved the system by adding a conveyor belt that brought the car frame to the workers. This cut production time for one Model T from a day and a half to an unbelievable 93 minutes. Ford was able to reduce its cost from $850 in 1906, to $400 in 1916, and $290 by 1924. Ford’s mantra was “fast and cheap” – and that did not leave any room for variety.
All his cars were painted black, because it was the color of enamel that dried the fastest. He sold 1 million cars by 1921 and 15 million between 1908 and 1927 – 50 percent of the market. His operation made him the pacesetter of the industry, and it made the industry the paragon of technological progress. Engineering milestones began to enhance the popularity of the car and improve its safety. They included the electric starter in 1911, introduced by Charles Kettering; the synchronized transmission for easier gear shifting; improved carburetors; heaters; mechanically operated windshield wipers; and interchangeable parts. Henry Leland, president of Cadillac Automobile Co., believed that car parts should be the same for similar models. Skeptics disagreed, so to prove his point, he shipped three cars to England, had them disassembled, their parts all mixed together, and then reassembled. This successful innovation increased production efficiency and reduced costs, adding to the affordability of the auto.
The Term Paper on Peugot 206 Electric Cars Ad Campaign Ad Strategy part 1
peugot 206 electric cars - ad campaign - ad strategy Prior to developing an advertising strategy, preparing a creative brief, and preparing a costed media schedule I would like to comment a little on the history of Peugeot so that the customers as well as readers become aware of what this company is about. Peugeot is one of the oldest companies involved in the automotive industry today. Having ...
By the mid-1920s, other innovators were changing the industry. William Durant surpassed Ford in sales by offering variety. He began buying different car firms that built to different tastes – luxury, speed, comfort, and utility. The first were Olds, Oakland (later the Pontiac), and Cadillac. Then he bought out makers of motors, spark plugs, and other components and accessories. His acquisitive nature and vision resulted in the General Motors Company, the forerunner of the modern automotive operation. The 1930s saw more reliable braking, higher-compression engines, and the world’s first diesel engine by Mercedes. Automobile engines were becoming larger, and many had 12 and 16 cylinders. Independent front suspension was added to make larger cars more comfortable. Design-wise, automobiles on both sides of the Atlantic were styled with gracious proportions, long hoods, and pontoon-shaped fenders. In 1941, the brilliant engineering that had built the automotive industry was directed toward other activities that would help win the war.
Auto companies used their production machinery, leadership, and experience to build 4 million engines of all types, 6 million guns, 3 million tanks and trucks, and 27,000 aircraft – plus an amazing assortment of miscellaneous military hardware. After the war, they returned to the business of building automobiles. Large-scale production began in the early 1950s. New automotive features included air conditioning, electrically operated car windows, seat adjusters, and a change from a 6-volt to a 12-volt ignition system which improved engine performance. American cars tended to borrow design features normally found on aircraft and ships, including tailfins and portholes. Cars increased in size and weight, but power steering and brakes made them easier to handle. Across the Atlantic, Europeans were making smaller and lighter cars that weighed less than 2800 lb. Their sports cars had hand-fashioned aluminum bodies over a steel chassis and framework.
The Term Paper on Wheel Drive First Car Automobile
... automobiles competed for decades, with petrol / gasoline internal combustion engines achieving dominance in the 1910 s. Dual- and even quad-engine cars were designed, and engine ... industry consolidated and matured, thanks in part to the effects of the Great Depression. Post-war era. Automobile design ... mass transit, until a backlash against these large speedy vehicles resulted in the passage of ...
In the early days of the car, the biggest worry was keeping it running. Today we are concerned with aerodynamic designs for speed and fuel efficiency, passenger safety issues, and pollution control systems. In 1900 a car might have a total of 100 parts, while today it has some 14,000. Design innovations incorporate breakthroughs in computerization, high-strength plastics, and alloys of steel and nonferrous metals. Accessories can include CD players, tape decks, television and phone installations, and separate sound and temperature controls in the front and back of a vehicle. Some cars come equipped with satellite-aided global positioning system (GPS) locator beacons, enabling a remote operator to locate a vehicle, map its location, and, if necessary, direct repair or emergency workers to the scene. In one form or another, the vehicle has become the major transporter of people and goods in the world, whether designed for urban use or rough terrain, one passenger or a dozen.
Its basic design and power systems have been widely adapted to vehicles such as the ambulance, jeep, police car, minivan, limousine, pickup truck, and tractor Today’s automobile industry has helped to shape the financial world, from banks to the stock market, and is a major barometer of the economic health of a nation. Automobile sales represent more than one-fifth of U.S. wholesale business, and more than one-fourth of its retail trade. Japan and Western Europe are rapidly approaching these Massive and internationally competitive, the automobile industry is the largest single manufacturing enterprise in the United States in terms of total value of products and number of employees. One out of every six U.S. businesses depends on the manufacture, distribution, servicing, or use of motor vehicles. The industry is primarily responsible for the growth of steel and rubber production, and is the largest user of machine tools. Specialized manufacturing requirements have driven advances in petroleum refining, paint and plate-glass manufacturing, and other industrial processes. Gasoline, once a waste product to be burned off, is now one of the most valuable commodities in the world. As for changing social patterns, a historian has said that Henry Ford freed common people from the limitations of geography, creating social mobility on a scale previously unknown. Few, if any, other machines have been as widely adopted or used as an agent of change in so many societal institutions and practices.
The Business plan on Process Design for Riordan Manufacturing 2
Dear CEO: At Riordan, the electric fan division has revised the process for supplying the electric fans. Part of Riordan’s operations planning, Riordan would implement aggregate operations. From Operations Management for Competitive Advantage (2006), “Aggregate operations planning involves translating annual and quarterly business plans into broad labor and output plans for the intermediate term ...
Bibliography:
McGraw-Hill.Encyclopedia of technology and science. NY 2000
