Probabilmente il libro più noto di Crichton..... É stato il mio primo "Crichton"..... e devo dire che ho iniziato bene ..fantastico in tutte le sue parti. Scritto in modo magistrale riesce a farti vivere le vicende in maniera reale ! Pagina dopo pagina le parole scorrono come un fiume in piena senza mai stancare.Bellissimo . Consigliatissimo....Continua
UNO DEI LIBRI PIù DIVERTENTI CHE ABBIA MAI LETTO!
Apart my love for Crichton, apart for a good English exercise, apart for being alwways so curious about "the original story".... the main reason I chose it was to find out the Magic Word...
Now I'm happier :-)
This is an incredible book, no questions asked. I, like others, watched the movies first before discovering the book. After devouring this wonderful piece of writing, I found that the book is much more detailed and gripping than the movie. Not too surprising, since books are better than their movie counterparts most of the time. Crichton was an incredible author, and this novel is way ahead of it's time.
One of my favorite books, in short....Continua
I liked this book. Funny and enthralling way to practice my English
And I also learnt something about clonation issues, about dinosaurs (naturally), about palaeontologists, and about wild animals’ behaviour.
"And now chaos theory proves that unpredictability is built into our daily lives. It is as mundane as the rainstorm we cannot predict. And so the grand vision of science, hundreds of years old - the dream of total control has died, in our century. And with it much of the justification, the rationale for science to do what it does. And for us to listen to it. Science has always said that it may not know everything now but it will know, eventually. But now we see that isn't true. It is an idle boast. As foolish, and as misguided, as the child who jumps off a building because he believes he can fly."
"We are witnessing the end of the scientific era. Science, like other outmoded systems, is destroying itself. As it gains in power, it proves itself incapable of handling the power. Because things are going very fast now. Fifty years ago, everyone was gaga over the atomic bomb. That was power. No one could imagine anything more. Yet, a bare decade after the bomb, we began to have genetic power. And genetic power is far more potent than atomic power. And it will be in everyone's hands. It will be in kits for backyard gardeners. Experiments for schoolchildren. Cheap labs for terrorists and dictators, And that will force everyone to ask the same question - What should I do with my power? - which is the very question science says it cannot answer."...Continua
"Okay," Gennaro said.
"But there is another kind of behaviour, which physics handles badly. For example, anything to do with turbulence. Water coming out of a spout. Air moving over an airplane wing. Weather. Blood flowing through the heart. Turbulent events are described by nonlinear equations. They're hard to solve - in fact, they're usually impossible to solve. So physics has never understood this whole class of events. Until about ten years ago. The new theory that describes them is called chaos theory."
"Chaos theory originally grew out of attempts to make computer models of weather in the 1960s. Weather is a big complicated system, namely the earth's atmosphere as it interacts with the land and the sun. The behaviour of this big complicated system always defied understanding. So naturally we couldn't predict weather. But what the early researchers learned from computer models was that, even if you could understand it, you still couldn't predict it. Weather prediction is absolutely impossible. The reason is that the behaviour of the system is sensitively dependent on initial conditions."
"You lost me," Gennaro said.
"Use a cannon to fire a shell of a certain weight, at a certain speed, and a certain angle of inclination - and if I then fire a second shell with almost the same weight, speed, and angle - what will happen?"
"The two shells will land at almost the same spot."
"Right," Malcolm said. "That's linear dynamics."
"But if I have a weather system that I start up with a certain temperature and a certain wind speed and a certain humidity - and if I then repeat it with almost the same temperature, wind, and humidity - the second system will not behave almost the same. It'll wander off and rapidly will become very different from the first. Thunderstorms instead of sunshine. That's nonlinear dynamics. They are sensitive to initial conditions: tiny differences become amplified."
"I think I see," Gennaro said.
"The shorthand is the 'butterfly effect.' A butterfly flaps its wings in Peking, and weather in New York is different."
"So chaos is all just random and unpredictable?" Gennaro said. "Is that it?"
"No," Malcolm said. "We actually find hidden regularities within the complex variety of a system's behaviour. That's why chaos has now become a very broad theory that's used to study everything from the stock market, to rioting crowds, to brain waves during epilepsy. Any sort of complex system where there is confusion and unpredictability. We can find an underlying order. Okay?"
"Okay," Gennaro said. "But what is this underlying order?"
"It's essentially characterized by the movement of the system within phase space," Malcolm said.
"Jesus," Gennaro said. "All I want to know is why you think Hammond's island can't work."
"I understand," Malcolm said. "I'll get there. Chaos theory says two things. First, that complex systems like weather have an underlying order. Second, the reverse of that - that simple systems can produce complex behaviour. For example, pool balls. You hit a pool ball, and it starts to carom off the sides of the table. In theory, that's a fairly simple system, almost a Newtonian system. Since you can know the force imparted to the ball, and the mass of the ball, and you can calculate the angles at which it will strike the walls, you can predict the future behaviour of the ball. In theory, you could predict the behaviour of the ball far into the future, as it keeps bouncing from side to side. You could predict where it will end up three hours from now, in theory."
"Okay." Gennaro nodded.
"But in fact," Malcolm said, "it turns out you can't predict more than a few seconds into the future. Because almost immediately very small effects - imperfections in the surface of the ball, tiny indentations in the wood of the table - start to make a difference. And it doesn't take long before they overpower your careful calculations. So it turns out that this simple system of a pool ball on a table has unpredictable behaviour."
"And Hammond's project," Malcolm said, "is another apparently simple system - animals within a zoo environment - that will eventually show unpredictable behaviour."
"You know this because of . . ."
"Theory," Malcolm said.
"But hadn't you better see the island, to see what he's actually done?"
"No. That is quite unnecessary. The details don't matter. Theory tells me that the island will quickly proceed to behave in unpredictable fashion."
"And you're confident of your theory."
"Oh, yes," Malcolm said. "Totally confident." He sat back in the chair. "There is a problem with that island. It is an accident waiting to happen."...Continua