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在Premiere中,File-New里哪些是用来辅助编辑的。()
在Premiere中,File-New里哪个是不用进行编辑的。()
某电子邮件地址为new@public.bta.net.cn,其中new代表()。
You need to design a method to allow the new-ideas-testking.com Web site to function in accordance with security and business requirements. What should you do?()
在Premiere中,File-New里哪些是用来辅助编辑的。()
Passage 2
New-age Transport Computerized design, advanced materials and new technologies are being used to produce machines of a type never seen before.
It looks as if it came straight from the set of Star Wars. It has four-wheel drive and rises above rocky surfaces. It lowers and raises its nose when going up and down hills. And when it comes to a river, it turns amphibious: two hydrojets power it along by blasting water under its body. There is room for two passengers and a driver, who sit inside a glass bubble operating electronic, aircraft-type controls. A vehicle so daring on land and water needs windscreen wipers-but it doesn’t have any. Water molecules are disintegrated on the screen’s surface by ultrasonic sensors.
This unusual vehicle is the Racoon. It is an invention not of Hollywood but of Renault, a rather conservative French state-owned carmaker, better known for its family hatchbacks. Renault built the Racoon to explore new freedoms for designers and engineers created by advances in materials and manufacturing processes. Renault is thinking about startlingly different cars; other producers have radical new ideas for trains, boats and aeroplanes.
The first of the new freedoms is in design. Powerful computer-aided design (CAD) systems can replace with a click of a computer mouse hours of laborious work done on thousands of drawing boards. So new products, no matter how complicated, can be developed much faster. For the first time, Boeing will not have to build a giant replica of its new airliner, the 777, to make sure all the bits fit together. Its CAD system will take care of that.
But Renault is taking CAD further. It claims the Racoon is the world’s first vehicle to be designed within the digitized world of virtual reality. Complex programmes were used to simulate the vehicle and the terrain that it was expected to cross. This allowed a team led by Patrick Le Quement, Renault’s industrial-design director, to “drive” it long before a prototype existed.
Renault is not alone in thinking that virtual reality will transform automotive design. In Detroit, Ford is also investigating its potential. Jack Telnac, the firm’s head of design, would like designers in different parts of the world to work more closely together, linked by computers. They would do more than style cars. Virtual reality will allow engineers to peer inside the working parts of a vehicle. Designers will watch bearings move, oil flow, gears mesh and hydraulics pump. As these techniques catch on, even stranger vehicles are likely to come along.
Transforming these creations from virtual reality to actual reality will also become easier, especially with advances in materials. Firms that once bashed everything out of steel now find that new alloys or composite materials (which can be made from mixtures of plastic, resin, ceramics and metals, reinforced with fibres such as glass or carbon) are changing the rules of manufacturing. At the same time, old materials keep getting better, as their producers try to secure their place in the factory of the future. This competition is increasing the pace of development of all materials.
One company in this field is Scaled Composites. It was started in 1982 by Burt Rutan, an aviator who has devised many unusual aircraft. His company develops and tests prototypes that have ranged from business aircraft to air racers. It has also worked on composite sails for the America’s Cup yacht race and on General Motors’ Ultralite, a 100-miles-per-gallon experimental family car built from carbon fibre.
Again, the Racoon reflects this race between the old and the new. It uses conventional steel and what Renault describes as a new “high-limit elastic steel” in its chassis. This steel is 30% lighter than the usual kind. The Racoon also has parts made from composites. Renault plans to replace the petrol engine with a small gas turbine, which could be made from heat-resisting ceramics, and use it to run a generator that would provide power for electric motors at each wheel.
With composites it is possible to build many different parts into a single component. Fiat, Italy’s biggest car maker, has worked out that it could reduce the number of components needed in one of its car bodies from 150 to 16 by using a composite shell rather than one made of steel. Aircraft and cars may increasingly be assembled as if they were plastic kits.
Advances in engine technology also make cars lighter. The Ultralite, which Scaled Composites helped to design for General Motors, uses a two-stroke engine in a “power pod” at the rear of the vehicle. The engine has been developed from an East German design and weighs 40% less than a conventional engine but produces as much power. It is expected to run cleanly enough to qualify as an ultra-low emissions vehicle under California’s tough new rules.
Look at the following design features and list of companies.
Match each design feature with the correct company, A-E.
Write the correct letter A-E in boxes 1-6 on your answer sheet.
NB You may use any letter more than once.
1. a power pod
2. electronic controls
3. a composite body
4. elastic steel
5. aircraft prototypes
6. ultrasonic sensors
中国C公司按每公吨300美元FOB-Vessel-New-York从美国一公司进口2000公吨钢材。C公司如期开出60万美元的信用证,但美商来电要求增加信用证金额至62万美元,不然有关出口税捐及签证费用应由中国C公司另行电汇。讨论:这是什么道理?应如何解决?
New-Rage化妆品公司使用传统成本会计系统将质量控制成本按照直接人工成本的14.5%均匀地分配给每个产品。Satin Sheen品牌化装品的月度直接人工成本是$27,500。为了让质量控制成本分摊得更准确, New-Rage公司考虑用作业成本法。以下的表格是Satin Sheen品牌化妆品的月度数据 使用作业成本法分配给Satin Sheen的月度质量控制成本是()