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By Brian X. Chen, August 28, 2008
Just as small, fast-moving mammals replaced lumbering
dinosaurs, pocketable gadgets are evolving to fill niches that
larger, deskbound computers can't reach. But as they shrink,
these gadgets are faced with problems mammals face, too,
such as efficiently dissipating heat.
The recent example of Apple's first-generation iPod nanos
causing fires in Japan raises the question of whether
increasingly innovative product designs are impinging on
safety. The nano incident illustrates how risk can increase as
devices decrease in size, says Roger Kay, an analyst at
EndpointTechnologies.
"As [gadgets] get smaller, the tradeoffs become more difficult,
the balance becomes more critical and there's less room for
error," Kay said. "I'm not surprised it's happening to the nano
because that's the small one. You're asking it to do a lot in a
very, very small package and that's pushing the envelope.”
There's no question that industrial designers' jobs have
become much more difficult as the industry demands ever
more powerful and smaller gadgets. With paper-thin
subnotebooks, ultrasmall MP3 players, and pinkie finger-
sized Bluetooth headsets becoming increasingly popular, it's
questionable where exactly designers draw the line between
innovation and safety.
By Brian X. Chen, August 28, 2008
Just as small, fast-moving mammals replaced lumbering
dinosaurs, pocketable gadgets are evolving to fill niches that
larger, deskbound computers can't reach. But as they shrink,
these gadgets are faced with problems mammals face, too,
such as efficiently dissipating heat.
The recent example of Apple's first-generation iPod nanos
causing fires in Japan raises the question of whether
increasingly innovative product designs are impinging on
safety. The nano incident illustrates how risk can increase as
devices decrease in size, says Roger Kay, an analyst at
EndpointTechnologies.
"As [gadgets] get smaller, the tradeoffs become more difficult,
the balance becomes more critical and there's less room for
error," Kay said. "I'm not surprised it's happening to the nano
because that's the small one. You're asking it to do a lot in a
very, very small package and that's pushing the envelope.”
There's no question that industrial designers' jobs have
become much more difficult as the industry demands ever
more powerful and smaller gadgets. With paper-thin
subnotebooks, ultrasmall MP3 players, and pinkie finger-
sized Bluetooth headsets becoming increasingly popular, it's
questionable where exactly designers draw the line between
innovation and safety.
Dumping your entire music collection _____ your iPod is a simple, one click process. But what about getting your music _____ your iPod?
By Brian X. Chen, August 28, 2008
Just as small, fast-moving mammals replaced lumbering
dinosaurs, pocketable gadgets are evolving to fill niches that
larger, deskbound computers can't reach. But as they shrink,
these gadgets are faced with problems mammals face, too,
such as efficiently dissipating heat.
The recent example of Apple's first-generation iPod nanos
causing fires in Japan raises the question of whether
increasingly innovative product designs are impinging on
safety. The nano incident illustrates how risk can increase as
devices decrease in size, says Roger Kay, an analyst at
EndpointTechnologies.
"As [gadgets] get smaller, the tradeoffs become more difficult,
the balance becomes more critical and there's less room for
error," Kay said. "I'm not surprised it's happening to the nano
because that's the small one. You're asking it to do a lot in a
very, very small package and that's pushing the envelope.”
There's no question that industrial designers' jobs have
become much more difficult as the industry demands ever
more powerful and smaller gadgets. With paper-thin
subnotebooks, ultrasmall MP3 players, and pinkie finger-
sized Bluetooth headsets becoming increasingly popular, it's
questionable where exactly designers draw the line between
innovation and safety.
By Brian X. Chen, August 28, 2008
Just as small, fast-moving mammals replaced lumbering
dinosaurs, pocketable gadgets are evolving to fill niches that
larger, deskbound computers can't reach. But as they shrink,
these gadgets are faced with problems mammals face, too,
such as efficiently dissipating heat.
The recent example of Apple's first-generation iPod nanos
causing fires in Japan raises the question of whether
increasingly innovative product designs are impinging on
safety. The nano incident illustrates how risk can increase as
devices decrease in size, says Roger Kay, an analyst at
EndpointTechnologies.
"As [gadgets] get smaller, the tradeoffs become more difficult,
the balance becomes more critical and there's less room for
error," Kay said. "I'm not surprised it's happening to the nano
because that's the small one. You're asking it to do a lot in a
very, very small package and that's pushing the envelope.”
There's no question that industrial designers' jobs have
become much more difficult as the industry demands ever
more powerful and smaller gadgets. With paper-thin
subnotebooks, ultrasmall MP3 players, and pinkie finger-
sized Bluetooth headsets becoming increasingly popular, it's
questionable where exactly designers draw the line between
innovation and safety.
By Brian X. Chen, August 28, 2008
Just as small, fast-moving mammals replaced lumbering
dinosaurs, pocketable gadgets are evolving to fill niches that
larger, deskbound computers can't reach. But as they shrink,
these gadgets are faced with problems mammals face, too,
such as efficiently dissipating heat.
The recent example of Apple's first-generation iPod nanos
causing fires in Japan raises the question of whether
increasingly innovative product designs are impinging on
safety. The nano incident illustrates how risk can increase as
devices decrease in size, says Roger Kay, an analyst at
EndpointTechnologies.
"As [gadgets] get smaller, the tradeoffs become more difficult,
the balance becomes more critical and there's less room for
error," Kay said. "I'm not surprised it's happening to the nano
because that's the small one. You're asking it to do a lot in a
very, very small package and that's pushing the envelope.”
There's no question that industrial designers' jobs have
become much more difficult as the industry demands ever
more powerful and smaller gadgets. With paper-thin
subnotebooks, ultrasmall MP3 players, and pinkie finger-
sized Bluetooth headsets becoming increasingly popular, it's
questionable where exactly designers draw the line between
innovation and safety.
By Brian X. Chen, August 28, 2008
Just as small, fast-moving mammals replaced lumbering
dinosaurs, pocketable gadgets are evolving to fill niches that
larger, deskbound computers can't reach. But as they shrink,
these gadgets are faced with problems mammals face, too,
such as efficiently dissipating heat.
The recent example of Apple's first-generation iPod nanos
causing fires in Japan raises the question of whether
increasingly innovative product designs are impinging on
safety. The nano incident illustrates how risk can increase as
devices decrease in size, says Roger Kay, an analyst at
EndpointTechnologies.
"As [gadgets] get smaller, the tradeoffs become more difficult,
the balance becomes more critical and there's less room for
error," Kay said. "I'm not surprised it's happening to the nano
because that's the small one. You're asking it to do a lot in a
very, very small package and that's pushing the envelope.”
There's no question that industrial designers' jobs have
become much more difficult as the industry demands ever
more powerful and smaller gadgets. With paper-thin
subnotebooks, ultrasmall MP3 players, and pinkie finger-
sized Bluetooth headsets becoming increasingly popular, it's
questionable where exactly designers draw the line between
innovation and safety.
I. demonstrar a viabilidade da harmonização dos objetivos ambientais e econômicos nas florestas tropicais;
II. ajudar a preservar os enormes recursos genéticos de que estas dispõem;
III. reduzir a contribuição das florestas brasileiras na emissão de gás carbônico;
IV. fornecer um exemplo de cooperação entre os países desenvolvidos e em desenvolvimento nas questões ambientais globais.
(Disponível em: http://www.mct.gov.br/index.php/content/view/ 43656.html)
Dentre os objetivos específicos do PPG7, aquele(s) que diretamente favorece(m) a preservação da biodiversidade local é(são) o(s):

Sobre amatriz energética brasileira pode-se afirmar que:
I. Um sistema de banco de dados distribuído consiste e um conjunto de sites, cada qual mantendo um sistema de banco de dados local.
II. Considerando o armazenamento distribuído dos dados, tem-se que na replicação o sistema mantém réplicas idênticas (cópias) da relação sendo que cada réplica é armazenada em diferentes sites.
III. Quando a replicação dos dados é utilizada, há a diminuição do overhead para atualização, pois uma vez que a informação é atualizada, a propagação ocorre automaticamente.
Um pacote é um mecanismo previsto na UML para organizar elementos em diferentes grupos. Uma ferramenta que suporta a UML tipicamente possibilita que pacotes sejam usados para se criar uma estrutura hierárquica visando organizar os modelos construídos.
No mapeamento de um conjunto binário de relacionamentos, do tipo muitos-para-muitos, para o modelo relacional, a chave primária da relação correspondente pode ser a chave primária de qualquer uma das duas entidades.
Os casos de uso identificados na especificação dos requisitos podem ser realizados na análise e no projeto. A realização de um caso de uso pode ser documentada de forma estática, via diagramas de classe, e de forma dinâmica, via diagramas de seqüência ou de colaboração.
Um relacionamento é uma associação entre uma ou duas entidades e um conjunto de relacionamentos é uma relação matemática sobre exatamente dois conjuntos de entidades (podendo ser os mesmos conjuntos).
A especialização é o processo de se designar subgrupos dentro de um conjunto de entidades que são distintas de outras entidades no conjunto; esse conjunto de entidades é chamado superclasse da especialização. O conjunto de subclasses que forma uma especialização é definido com base em algumas características das entidades da superclasse.
Algumas ferramentas possibilitam a geração de código a partir das classes identificadas no projeto. Para gerar código, as classes identificadas são mapeadas para componentes. Independentemente da linguagem de programação, somente uma classe pode ser mapeada para cada componente.
Uma entidade é um objeto que existe e é distinguível de outros objetos; e um conjunto de entidades é uma coleção de entidades do mesmo tipo que compartilham as mesmas propriedades.
A única possibilidade de se realizar o mapeamento do modelo Entidade-Relacionamento para o modelo relacional de uma especialização é criar uma tabela para a entidade da superclasse e criar uma tabela para cada entidade subclasse com uma coluna para cada um de seus atributos, mais uma coluna para a chave primária da entidade representando a superclasse.
Um modelo de análise foca nos requisitos funcionais e não funcionais, além de considerar aspectos das linguagens de programação que serão usadas na implementação. O modelo é organizado em subsistemas, que interagem via métodos especificados em interfaces.