ted演讲稿最好的礼物

第一篇：ted演讲稿最好的礼物

ted演讲稿最好的礼物

欢迎来到聘才网，以下是聘才小编为大家搜索整理的，欢迎大家阅读。ted演讲稿最好的礼物

说到“礼物”，我们往往会想到祝福、惊喜等，但是对今天这个演讲的主人公来说，到底什么才是“最好的礼物”呢?快和小E一起寻找答案吧!

Imagine, if you will, a gift请想象一份礼物

I'd like you to picture in your mind.请你们在脑海中构想一下

It's not too big.不是很大

About the size of a golf ball.大概高尔夫球般大小

So in vision what it looks like all wrapped up.包装好大致是这个样子

But before I show you what's inside, I will tell you that's going to do incredible things for you.在我揭开谜底之前，我先告诉你们这件礼物会有多么精妙的效果

It will bring all of your family together.它会使你合家团聚

You will fell loved and appreciated like never before.你会感受到前所未有的爱与感激

And reconnect to friends and acquaintances you haven't heard from in years.与久未谋面的老友和旧识重逢

Adoration and admiration will overwhelm you.爱与赞美会充盈你身

It will recalibrate what's most important in your life.你会重新检视何为生命中的要事

It will redefine your sense of spirituality and faith.你会重新定义自己对精神和信仰的看法

You'll have a new understanding and trust in your body.你对自己的身体也会有全新的认识和信任

You'll have unsurpassed vitality and energy.你会拥有无与伦比的生命力和能量

You'll expand your vocabulary, meet new people, and you'll have a healthier lifestyle.你将拓展你的词汇量，结交新的朋友，并拥有更健康的生活方式

And get this, you'll have an eight-week vacation of doing absolutely nothing.当你得到这件礼物时，你将会有八个礼拜的假期，不需要做任何事情

You'll eat countless gourmet meals.你将享用无尽的佳肴

Flowers will arrive by the truck load.收到好几卡车的鲜花

People will say to you: “You look great!Have you had any work done? ”

人们会对你说：“你看起来气色真不错 完成什么了吗”

And you'll have a life-time supply of good druges.你还会得到终生的良药供给

You'll be challenged, inspired, motivated and humbled.你会面临挑战，被启发，被鼓舞，同时变得更谦虚

Your life will have new meaning : peace, health, serenity, happiness, nirvana.你的生命将被赋予新的意义：平和、健康、宁静、快乐，犹如涅槃

The price ?礼物的价格呢

Fifty-five thousand dollars.五万五千美金

And that's an incredible deal.真是桩好买卖

By now, I know you're dying to know what it is and where you can get one.我知道你一定迫不及待地想知道，这到底是什么，在哪里可买到?

Does Amazon carry it ?亚马逊网站上有吗

Does it have the Apple logo on it ?是苹果公司的产品吗

Is there a waiting list ?要排队等货吗

Not likely.都不对

This gift came to me about five months ago.大概五个月前，我收到了这份礼物

And looked more like this when it was all wrapped up.包裹起来的话，大概是这个样子

Not quite so pretty.没那么漂亮

And this之后是这个

And then this还有这个

It was a rare jam.一个罕见的麻烦

A brain tumor.一颗脑瘤

Hemangioblastoma.成血管细胞瘤

The gift that keeps on giving.这礼物一直在影响着我

And while I'm ok now.现在我已无大碍了

I wouldn't wish this gift for you.我不希望这份礼物降临于你

I'm not sure you'd want it.我不确定你是否想得到

But I wouldn't change my experience.但是我不渴望改变过去

It profoundly altered my life in ways it didn't expect.它突如其来地彻底改变了我的生活

In all the ways I just shared with you.带来了以上所诉的那些改变

So next time you are faced with something that's unexpected, unwanted and uncertain,consider that it just may be a gift.所以下一次，当你面对意料之外的、避之不及和前途未卜的事，不妨就把它看成一件礼物

你们能想象到吗?对主人公来说，这份“最好的礼物”竟然是一颗脑瘤!是啊，生活给你的所有，不管是幸福还是灾难，都是生命的“礼物”。所以，对待生活中出现的困难，不妨就真的把它看成一件礼物吧!

第二篇：ted演讲稿我得到的最好的礼物

ted演讲稿我得到的最好的礼物

欢迎来到聘才网，以下是聘才小编为大家搜索整理的，欢迎大家阅读。

ted演讲稿 我们为什么要睡眠中文

简介：一生中，我们有三分之一的时间都在睡眠中度过。关于睡眠，你又了解多少?睡眠专家Russell Foster为我们解答为什么要睡觉，以及睡眠对健康的影响。

What I'd like to do today is talk about one of my favorite subjects, and that is the neuroscience of sleep.Now, there is a sound--(Alarm clock)--aah, it worked--a sound that is desperately, desperately familiar to most of us, and of course it's the sound of the alarm clock.And what that truly ghastly, awful sound does is stop the single most important behavioral experience that we have, and that's sleep.If you're an average sort of person, 36 percent of your life will be spent asleep, which means that if you live to 90, then 32 years will have been spent entirely asleep.Now what that 32 years is telling us is that sleep at some level is important.And yet, for most of us, we don't give sleep a second thought.We throw it away.We really just don't think about sleep.And so what I'd like to do today is change your views, change your ideas and your thoughts about sleep.And the journey that I want to take you on, we need to start by going back in time.“Enjoy the honey-heavy dew of slumber.” Any ideas who said that? Shakespeare's Julius Caesar.Yes, let me give you a few more quotes.“O sleep, O gentle sleep, nature's soft nurse, how have I frighted thee?” Shakespeare again, from--I won't say it--the Scottish play.(Laughter)From the same time: “Sleep is the golden chain that ties health and our bodies together.” Extremely prophetic, by Thomas Dekker, another Elizabethan dramatist.But if we jump forward 400 years, the tone about sleep changes somewhat.This is from Thomas Edison, from the beginning of the 20th century.“Sleep is a criminal waste of time and a heritage from our cave days.” Bang.(Laughter)And if we also jump into the 1980s, some of you may remember that Margaret Thatcher was reported to have said, “Sleep is for wimps.” And of course the infamous--what was his name?--the infamous Gordon Gekko from “Wall Street” said, “Money never sleeps.”

What do we do in the 20th century about sleep? Well, of course, we use Thomas Edison's light bulb to invade the night, and we occupied the dark, and in the process of this occupation, we've treated sleep as an illness, almost.We've treated it as an enemy.At most now, I suppose, we tolerate the need for sleep, and at worst perhaps many of us think of sleep as an illness that needs some sort of a cure.And our ignorance about sleep is really quite profound.Why is it? Why do we abandon sleep in our thoughts? Well, it's because you don't do anything much while you're asleep, it seems.You don't eat.You don't drink.And you don't have sex.Well, most of us anyway.And so therefore it's--Sorry.It's a complete waste of time, right? Wrong.Actually, sleep is an incredibly important part of our biology, and neuroscientists are beginning to explain why it's so very important.So let's move to the brain.Now, here we have a brain.This is donated by a social scientist, and they said they didn't know what it was, or indeed how to use it, so--(Laughter)Sorry.So I borrowed it.I don't think they noticed.Okay.(Laughter)

The point I'm trying to make is that when you're asleep, this thing doesn't shut down.In fact, some areas of the brain are actually more active during the sleep state than during the wake state.The other thing that's really important about sleep is that it doesn't arise from a single structure within the brain, but is to some extent a network property, and if we flip the brain on its back--I love this little bit of spinal cord here--this bit here is the hypothalamus, and right under there is a whole raft of interesting structures, not least the biological clock.The biological clock tells us when it's good to be up, when it's good to be asleep, and what that structure does is interact with a whole raft of other areas within the hypothalamus，the

lateral

hypothalamus，the ventrolateral preoptic nuclei.All of those combine, and they send projections down to the brain stem here.The brain stem then projects forward and bathes the cortex, this wonderfully wrinkly bit over here, with neurotransmitters that keep us awake and essentially provide us with our consciousness.So sleep arises from a whole raft of different interactions within the brain, and essentially, sleep is turned on and off as a result of a range of

Okay.So where have we got to? We've said that sleep is complicated and it takes 32 years of our life.But what I haven't explained is what sleep is about.So why do we sleep? And it won't surprise any of you that, of course, the scientists, we don't have a consensus.There are dozens of different ideas about why we sleep, and I'm going to outline three of those.The first is sort of the restoration idea, and it's somewhat intuitive.Essentially, all the stuff we've burned up during the day, we restore, we replace, we rebuild during the night.And indeed, as an explanation, it goes back to Aristotle, so that's, what, 2,300 years ago.It's gone in and out of fashion.It's fashionable at the moment because what's been shown is that within the brain, a whole raft of genes have been shown to be turned on only during sleep, and those genes are associated with restoration and metabolic pathways.So there's good evidence for the whole restoration hypothesis.What about energy conservation? Again, perhaps intuitive.You essentially sleep to save calories.Now, when you do the sums, though, it doesn't really pan out.If you compare an individual who has slept at night, or stayed awake and hasn't moved very much, the energy saving of sleeping is about 110 calories a night.Now, that's the equivalent of a hot dog bun.Now, I would say that a hot dog bun is kind of a meager return for such a complicated and demanding behavior as sleep.So I'm less convinced by the energy conservation idea.But the third idea I'm quite attracted to, which is brain processing and memory consolidation.What we know is that, if after you've tried to learn a task, and you sleep-deprive individuals, the ability to learn that task is smashed.It's really hugely attenuated.So sleep and memory consolidation is also very important.However, it's not just the laying down of memory and recalling it.What's turned out to be really exciting is that our ability to come up with novel solutions to complex problems is hugely enhanced by a night of sleep.In fact, it's been estimated to give us a threefold advantage.Sleeping at night enhances our creativity.And what seems to be going on is that, in the brain, those neural connections that are important, those synaptic connections that are important, are linked and strengthened, while those that are less important tend to fade away and be less important.Okay.So we've had three explanations for why we might sleep, and I think the important thing to realize is that the details will vary, and it's probable we sleep for multiple different reasons.But sleep is not an indulgence.It's not some sort of thing that we can take on board rather casually.I think that sleep was once likened to an upgrade from economy to business class, you know, the equiavlent of.It's not even an upgrade from economy to first class.The critical thing to realize is that if you don't sleep, you don't fly.Essentially, you never get there, and what's extraordinary about much of our society these days is that we are desperately sleep-deprived.So let's now look at sleep deprivation.Huge sectors of society are sleep-deprived, and let's look at our sleep-o-meter.So in the 1950s, good data suggests that most of us were getting around about eight hours of sleep a night.Nowadays, we sleep one and a half to two hours less every night, so we're in the six-and-a-half-hours-every-night

league.For teenagers, it's worse, much worse.They need nine hours for full brain performance, and many of them, on a school night, are only getting five hours of sleep.It's simply not enough.If we think about other sectors of society, the aged, if you are aged, then your ability to sleep in a single block is somewhat disrupted, and many sleep, again, less than five hours a night.Shift work.Shift work is extraordinary, perhaps 20 percent of the working population, and the body clock does not shift to the demands of working at night.It's locked onto the same light-dark cycle as the rest of us.So when the poor old shift worker is going home to try and sleep during the day, desperately tired, the body clock is saying, “Wake up.This is the time to be awake.” So the quality of sleep that you get as a night shift worker is usually very poor, again in that sort of five-hour region.And then, of course, tens of millions of people suffer from jet lag.So who here has jet lag? Well, my goodness gracious.Well, thank you very much indeed for not falling asleep, because that's what your brain is craving.One of the things that the brain does is indulge in micro-sleeps, this involuntary falling asleep, and you have essentially no control over it.Now, micro-sleeps can be sort of somewhat embarrassing, but they can also be deadly.It's been estimated that 31 percent of drivers will fall asleep at the wheel at least once in their life, and in the , the statistics are pretty good: 100,000 accidents on the freeway have been associated with tiredness, loss of vigilance, and falling asleep.A hundred thousand a year.It's extraordinary.At another level of terror, we dip into the tragic accidents at Chernobyl and indeed the space shuttle Challenger, which was so tragically lost.And in the investigations that followed those disasters, poor judgment as a result of extended shift work and loss of vigilance and tiredness was attributed to a big chunk of those disasters.So when you're tired, and you lack sleep, you have poor memory, you have poor creativity, you have increased impulsiveness, and you have overall poor judgment.But my friends, it's so much worse than that.(Laughter)

If you are a tired brain, the brain is craving things to wake it up.So drugs, stimulants.Caffeine represents the stimulant of choice across much of the Western world.Much of the day is fueled by caffeine, and if you're a really naughty tired brain, nicotine.And of course, you're fueling the waking state with these stimulants, and then of course it gets to 11 o'clock at night, and the brain says to itself, “Ah, well actually, I need to be asleep fairly shortly.What do we do about that when I'm feeling completely wired?” Well, of course, you then resort to alcohol.Now alcohol, short-term, you know, once or twice, to use to mildly sedate you, can be very useful.It can actually ease the sleep transition.But what you must be so aware of is that alcohol doesn't provide sleep, a biological mimic for sleep.It sedates you.So it actually harms some of the neural proccessing that's going on during memory consolidation and memory recall.So it's a short-term acute measure, but for goodness sake, don't become addicted to alcohol as a way of getting to sleep every night.Another connection between loss of sleep is weight gain.If you sleep around about five hours or less every night, then you have a 50 percent likelihood of being obese.What's the connection here? Well, sleep loss seems to give rise to the release of the hormone ghrelin, the hunger hormone.Ghrelin is released.It gets to the brain.The brain says, “I need carbohydrates,” and what it does is seek out carbohydrates and particularly sugars.So there's a link between tiredness and the metabolic predisposition for weight gain.Stress.Tired people are massively stressed.And one of the things of stress, of course, is loss of memory, which is what I sort of just then had a little lapse of.But stress is so much more.So if you're acutely stressed, not a great problem, but it's sustained stress associated with sleep loss that's the problem.So sustained stress leads to suppressed immunity, and so tired people tend to have higher rates of overall infection, and there's some very good studies showing that shift workers, for example, have higher rates of cancer.Increased levels of stress throw glucose into the circulation.Glucose becomes a dominant part of the vasculature and essentially you become glucose intolerant.Therefore, diabetes 2.Stress increases cardiovascular disease as a result of raising blood pressure.So there's a whole raft of things associated with sleep loss that are more than just a mildly impaired brain, which is where I think most people think that sleep loss resides.So at this point in the talk, this is a nice time to think, well, do you think on the whole I'm getting enough sleep? So a quick show of hands.Who feels that they're getting enough sleep here? Oh.Well, that's pretty impressive.Good.We'll talk more about that later, about what are your tips.So most of us, of course, ask the question, “Well, how do I know whether I'm getting enough sleep?” Well, it's not rocket science.If you need an alarm clock to get you out of bed in the morning, if you are taking a long time to get up, if you need lots of stimulants, if you're grumpy, if you're irritable, if you're told by your work colleagues that you're looking tired and irritable, chances are you are sleep-deprived.Listen to them.Listen to yourself.What do you do? Well--and this is slightly offensive--sleep for dummies: Make your bedroom a haven for sleep.The first critical thing is make it as dark as you possibly can, and also make it slightly cool.Very important.Actually, reduce your amount of light exposure at least half an hour before you go to bed.Light increases levels of alertness and will delay sleep.What's the last thing that most of us do before we go to bed? We stand in a massively lit bathroom looking into the mirror cleaning our teeth.It's the worst thing we can possibly do before we went to sleep.Turn off those mobile phones.Turn off those computers.Turn off all of those things that are also going to excite the brain.Try not to drink caffeine too late in the day, ideally not after lunch.Now, we've set about reducing light exposure before you go to bed, but light exposure in the morning is very good at setting the biological clock to the light-dark cycle.So seek out morning light.Basically, listen to yourself.Wind down.Do those sorts of things that you know are going to ease you off into the honey-heavy dew of slumber.Okay.That's some facts.What about some myths?

Teenagers are lazy.No.Poor things.They have a biological predisposition to go to bed late and get up late, so give them a break.We need eight hours of sleep a night.That's an average.Some people need more.Some people need less.And what you need to do is listen to your body.Do you need that much or do you need more? Simple as that.Old people need less sleep.Not true.The sleep demands of the aged do not go down.Essentially, sleep fragments and becomes less robust, but sleep requirements do not go down.And the fourth myth is, early to bed, early to rise makes a man healthy, wealthy and wise.Well that's wrong at so many different levels.(Laughter)There is no, no evidence that getting up early and going to bed early gives you more wealth at all.There's no difference in socioeconomic status.In my experience, the only difference between morning people and evening people is that those people that get up in the morning early are just horribly smug.(Laughter)(Applause)

Okay.So for the last part, the last few minutes, what I want to do is change gears and talk about some really new, breaking areas of neuroscience, which is the association between mental health, mental illness and sleep disruption.We've known for 130 years that in severe mental illness, there is always, always sleep disruption, but it's been largely ignored.In the 1970s, when people started to think about this again, they said, “Yes, well, of course you have sleep disruption in schizophrenia because they're on anti-psychotics.It's the anti-psychotics causing the sleep problems,” ignoring the fact that for a hundred years previously, sleep disruption

had

been

reported

before anti-psychotics.So what's going on? Lots of groups, several groups are studying conditions like depression, schizophrenia and bipolar, and what's going on in terms of sleep disruption.We have a big study which we published last year on schizophrenia, and the data were quite extraordinary.In those individuals with schizophrenia, much of the time, they were awake during the night phase and then they were asleep during the day.Other groups showed no 24-hour patterns whatsoever.Their sleep was absolutely smashed.And some had no ability to regulate their sleep by the light-dark cycle.They were getting up later and later and later and later each night.It was smashed.So what's going on? And the really exciting news is that mental illness and sleep are not simply associated but they are physically linked within the brain.The neural networks that predispose you to normal sleep, give you normal sleep, and those that give you normal mental health are overlapping.And what's the evidence for that? Well, genes that have been shown to be very important in the generation of normal sleep, when mutated, when changed, also predispose individuals to mental health problems.And last year, we published a study which showed that a gene that's been linked to schizophrenia, which, when mutated, also smashes the sleep.So we have evidence of a genuine mechanistic overlap between these two important systems.Other work flowed from these studies.The first was that sleep disruption actually precedes certain types of mental illness, and we've shown that in those young individuals who are at high risk of developing bipolar disorder, they already have a sleep abnormality prior to any clinical diagnosis of bipolar.The other bit of data was that sleep disruption may actually exacerbate, make worse the mental illness state.My colleague Dan Freeman has used a range of agents which have stabilized sleep and reduced levels of paranoia in those individuals by 50 percent.So what have we got? We've got, in these connections, some really exciting things.In terms of the neuroscience, by understanding the neuroscience of these two systems, we're really beginning to understand how both sleep and mental illness are generated and regulated within the brain.The second area is that if we can use sleep and sleep disruption as an early warning signal, then we have the chance of going in.If we know that these individuals are vulnerable, early intervention then becomes possible.And the third, which I think is the most exciting, is that we can think of the sleep centers within the brain as a new therapeutic target.Stabilize sleep in those individuals who are vulnerable, we can certainly make them healthier, but also alleviate some of the appalling symptoms of mental illness.So let me just finish.What I started by saying is take sleep seriously.Our attitudes toward sleep are so very different from a pre-industrial age, when we were almost wrapped in a duvet.We used to understand intuitively the importance of sleep.And this isn't some sort of crystal-waving nonsense.This is a pragmatic response to good health.If you have good sleep, it increases your concentration, attention, decision-making, creativity, social skills, health.If you get sleep, it reduces your mood changes, your stress, your levels of anger, your impulsivity, and your tendency to drink and take drugs.And we finished by saying that an understanding of the neuroscience of sleep is really informing the way we think about some of the causes of mental illness, and indeed is providing us new ways to treat these incredibly debilitating conditions.Jim Butcher, the fantasy writer, said, “Sleep is God.Go worship.” And I can only recommend that you do the same.Thank you for your attention.(Applause)

第三篇：TED演讲集：礼物

Imagine, if you will, a gift.I’d like for you to picture in your mind.It’s not too big.About the size of a golf ball.So in vision what it looks like all wrapped up.But before I show you what’s inside, I will tell you that’s going to do incredible things for you.It will bring all of your family together.You will feel loved and appreciated like never before.And reconnect to friends and acquaintances you haven’t heard from in years.Adoration(崇拜，崇敬)and admiration(赞美)will overwhelm you.It will recalibrate what’s important in your life.It will redefine your sense of spirituality and faith.You’ll have a new understanding and trust in your body.You’ll have unsurpassed vitality(生命力，活力)and energy.You’ll expand your vocabulary, meet new people, and you’ll have a healthier lifestyle.And get this, you’ll have an eight-week vacation of doing absolutely nothing.You’ll eat countless gourmet(讲究吃的人，食物品尝家)meals.Flowers will arrive by the truck load.People will say to you:”you look great!have you had any work done?”and you’ll have a life-time supply of good drugs.You’ll be challenged, inspired, motivated and humbled.Your life will have new meaning: peace, health, serenity(平静,从容), happiness, nirvana(涅磐).The price? Fifty-five thousand dollars.And that’s an incredible deal.By now, I know you’re dying to know what it is and where you can get one.Dose Amazon carry it? Dose it have the apple logo on it? Is there a waiting list? Not likely.This gift came to me about five months ago.And looked more like this when it

was all wrapped up.Not quite so pretty.And this.And then this.It was a rare jam brain tumor.Hemangioblastoma.The gift that keeps on giving.And while I’m ok now.I wouldn’t wish this gift for you.I’m not sure you’d want it.But I would’t change my experience.It profoundly altered my life in ways it didn’t expect.In all the ways I just shared with you.So the next time you are faced with something that’s unexpected, unwanted and uncertain.Consider.that it just may be a gift.

第四篇：ted演讲稿

Brian Cox: CERN's supercollider This is the Large Hadron Collider.It's 27 kilometers in circumference.It's the biggest scientific experiment ever attempted.Over 10,000 physicists and engineers from 85 countries around the world have come together over several decades to build this machine.What we do is we accelerate protons--so, hydrogen nuclei--around 99.999999 percent the speed of light.Right? At that speed, they go around that 27 kilometers 11,000 times a second.And we collide them with another beam of protons going in the opposite direction.We collide them inside giant detectors.They're essentially digital cameras.And this is the one that I work on, ATLAS.You get some sense of the size--you can just see these EU standard-size people underneath.(Laughter)You get some sense of the size: 44 meters wide, 22 meters in diameter, 7,000 tons.And we re-create the conditions that were present less than a billionth of a second after the universe began up to 600 million times a second inside that detector--immense numbers.And if you see those metal bits there--those are huge magnets that bend electrically charged particles, so it can measure how fast they're traveling.This is a picture about a year ago.Those magnets are in there.And, again, a EU standard-size, real person, so you get some sense of the scale.And it's in there that those mini-Big Bangs will be created, sometime in the summer this year.And actually, this morning, I got an email saying that we've just finished, today, building the last piece of ATLAS.So as of today, it's finished.I'd like to say that I planned that for TED, but I didn't.So it's been completed as of today.(Applause)Yeah, it's a wonderful achievement.So, you might be asking, “Why? Why create the conditions that were present less than a billionth of a second after the universe began?” Well, particle physicists are nothing if not ambitious.And the aim of particle physics is to understand what everything's made of, and how everything sticks together.And by everything I mean, of course, me and you, the Earth, the Sun, the 100 billion suns in our galaxy and the 100 billion galaxies in the observable universe.Absolutely everything.Now you might say, “Well, OK, but why not just look at it? You know? If you want to know what I'm made of, let's look at me.” Well, we found that as you look back in time, the universe gets hotter and hotter, denser and denser, and simpler and simpler.Now, there's no real reason I'm aware of for that, but that seems to be the case.So, way back in the early times of the universe, we believe it was very simple and understandable.All this complexity, all the way to these wonderful things--human brains--are a property of an old and cold and complicated universe.Back at the start, in the first billionth of a second, we believe, or we've observed, it was very simple.It's almost like...imagine a snowflake in your hand, and you look at it, and it's an incredibly complicated, beautiful object.But as you heat it up, it'll melt into a pool of water, and you would be able to see that, actually, it was just made of H20, water.So it's in that same sense that we look back in time to understand what the universe is made of.And, as of today, it's made of these things.Just 12 particles of matter, stuck together by four forces of nature.The quarks, these pink things, are the things that make up protons and neutrons that make up the atomic nuclei in your body.The electron--the thing that goes around the atomic nucleus--held around in orbit, by the way, by the electromagnetic force that's carried by this thing, the photon.The quarks are stuck together by other things called gluons.And these guys, here, they're the weak nuclear force, probably the least familiar.But, without it, the sun wouldn't shine.And when the sun shines, you get copious quantities of these things, called neutrinos, pouring out.Actually, if you just look at your thumbnail--about a square centimeter--there are something like 60 billion neutrinos per second from the sun, passing through every square centimeter of your body.But you don't feel them, because the weak force is correctly named--very short range and very weak, so they just fly through you.And these particles have been discovered over the last century, pretty much.The first one, the electron, was discovered in 1897, and the last one, this thing called the tau neutrino, in the year 2000.Actually just--I was going to say, just up the road in Chicago.I know it's a big country, America, isn't it? Just up the road.Relative to the universe, it's just up the road.(Laughter)So, this thing was discovered in the year 2000, so it's a relatively recent picture.One of the wonderful things, actually, I find, is that we've discovered any of them, when you realize how tiny they are.You know, they're a step in size from the entire observable universe.So, 100 billion galaxies, 13.7 billion light years away--a step in size from that to Monterey, actually, is about the same as from Monterey to these things.Absolutely, exquisitely minute, and yet we've discovered pretty much the full set.So, one of my most illustrious forebears at Manchester University, Ernest Rutherford, discoverer of the atomic nucleus, once said, “All science is either physics or stamp collecting.” Now, I don't think he meant to insult the rest of science, although he was from New Zealand, so it's possible.(Laughter)But what he meant was that what we've done, really, is stamp collect there.OK, we've discovered the particles, but unless you understand the underlying reason for that pattern--you know, why it's built the way it is--really you've done stamp collecting.You haven't done science.Fortunately, we have probably one of the greatest scientific achievements of the twentieth century that underpins that pattern.It's the Newton's laws, if you want, of particle physics.It's called the standard model--beautifully simple mathematical equation.You could stick it on the front of a T-shirt, which is always the sign of elegance.This is it.(Laughter)I've been a little disingenuous, because I've expanded it out in all its gory detail.This equation, though, allows you to calculate everything--other than gravity--that happens in the universe.So, you want to know why the sky is blue, why atomic nuclei stick together--in principle, you've got a big enough computer--why DNA is the shape it is.In principle, you should be able to calculate it from that equation.But there's a problem.Can anyone see what it is? A bottle of champagne for anyone that tells me.I'll make it easier, actually, by blowing one of the lines up.Basically, each of these terms refers to some of the particles.So those Ws there refer to the Ws, and how they stick together.These carriers of the weak force, the Zs, the same.But there's an extra symbol in this equation: H.Right, H.H stands for Higgs particle.Higgs particles have not been discovered.But they're necessary: they're necessary to make that mathematics work.So all the exquisitely detailed calculations we can do with that wonderful equation wouldn't be possible without an extra bit.So it's a prediction: a prediction of a new particle.What does it do? Well, we had a long time to come up with good analogies.And back in the 1980s, when we wanted the money for the LHC from the U.K.government, Margaret Thatcher, at the time, said, “If you guys can explain, in language a politician can understand, what the hell it is that you're doing, you can have the money.I want to know what this Higgs particle does.” And we came up with this analogy, and it seemed to work.Well, what the Higgs does is, it gives mass to the fundamental particles.And the picture is that the whole universe--and that doesn't mean just space, it means me as well, and inside you--the whole universe is full of something called a Higgs field.Higgs particles, if you will.The analogy is that these people in a room are the Higgs particles.Now when a particle moves through the universe, it can interact with these Higgs particles.But imagine someone who's not very popular moves through the room.Then everyone ignores them.They can just pass through the room very quickly, essentially at the speed of light.They're massless.And imagine someone incredibly important and popular and intelligent walks into the room.They're surrounded by people, and their passage through the room is impeded.It's almost like they get heavy.They get massive.And that's exactly the way the Higgs mechanism works.The picture is that the electrons and the quarks in your body and in the universe that we see around us are heavy, in a sense, and massive, because they're surrounded by Higgs particles.They're interacting with the Higgs field.If that picture's true, then we have to discover those Higgs particles at the LHC.If it's not true--because it's quite a convoluted mechanism, although it's the simplest we've been able to think of--then whatever does the job of the Higgs particles we know have to turn up at the LHC.So, that's one of the prime reasons we built this giant machine.I'm glad you recognize Margaret Thatcher.Actually, I thought about making it more culturally relevant, but--(Laughter)anyway.So that's one thing.That's essentially a guarantee of what the LHC will find.There are many other things.You've heard many of the big problems in particle physics.One of them you heard about: dark matter, dark energy.There's another issue, which is that the forces in nature--it's quite beautiful, actually--seem, as you go back in time, they seem to change in strength.Well, they do change in strength.So, the electromagnetic force, the force that holds us together, gets stronger as you go to higher temperatures.The strong force, the strong nuclear force, which sticks nuclei together, gets weaker.And what you see is the standard model--you can calculate how these change--is the forces, the three forces, other than gravity, almost seem to come together at one point.It's almost as if there was one beautiful kind of super-force, back at the beginning of time.But they just miss.Now there's a theory called super-symmetry, which doubles the number of particles in the standard model, which, at first sight, doesn't sound like a simplification.But actually, with this theory, we find that the forces of nature do seem to unify together, back at the Big Bang--absolutely beautiful prophecy.The model wasn't built to do that, but it seems to do it.Also, those super-symmetric particles are very strong candidates for the dark matter.So a very compelling theory that's really mainstream physics.And if I was to put money on it, I would put money on--in a very unscientific way--that that these things would also crop up at the LHC.Many other things that the LHC could discover.But in the last few minutes, I just want to give you a different perspective of what I think--what particle physics really means to me--particle physics and cosmology.And that's that I think it's given us a wonderful narrative--almost a creation story, if you'd like--about the universe, from modern science over the last few decades.And I'd say that it deserves, in the spirit of Wade Davis' talk, to be at least put up there with these wonderful creation stories of the peoples of the high Andes and the frozen north.This is a creation story, I think, equally as wonderful.The story goes like this: we know that the universe began 13.7 billion years ago, in an immensely hot, dense state, much smaller than a single atom.It began to expand about a million, billion, billion, billion billionth of a second--I think I got that right--after the Big Bang.Gravity separated away from the other forces.The universe then underwent an exponential expansion called inflation.In about the first billionth of a second or so, the Higgs field kicked in, and the quarks and the gluons and the electrons that make us up got mass.The universe continued to expand and cool.After about a few minutes, there was hydrogen and helium in the universe.That's all.The universe was about 75 percent hydrogen, 25 percent helium.It still is today.It continued to expand about 300 million years.Then light began to travel through the universe.It was big enough to be transparent to light, and that's what we see in the cosmic microwave background that George Smoot described as looking at the face of God.After about 400 million years, the first stars formed, and that hydrogen, that helium, then began to cook into the heavier elements.So the elements of life--carbon, and oxygen and iron, all the elements that we need to make us up--were cooked in those first generations of stars, which then ran out of fuel, exploded, threw those elements back into the universe.They then re-collapsed into another generation of stars and planets.And on some of those planets, the oxygen, which had been created in that first generation of stars, could fuse with hydrogen to form water, liquid water on the surface.On at least one, and maybe only one of those planets, primitive life evolved, which evolved over millions of years into things that walked upright and left footprints about three and a half million years ago in the mud flats of Tanzania, and eventually left a footprint on another world.And built this civilization, this wonderful picture, that turned the darkness into light, and you can see the civilization from space.As one of my great heroes, Carl Sagan, said, these are the things--and actually, not only these, but I was looking around--these are the things, like Saturn V rockets, and Sputnik, and DNA, and literature and science--these are the things that hydrogen atoms do when given 13.7 billion years.Absolutely remarkable.And, the laws of physics.Right? So, the right laws of physics--they're beautifully balanced.If the weak force had been a little bit different, then carbon and oxygen wouldn't be stable inside the hearts of stars, and there would be none of that in the universe.And I think that's a wonderful and significant story.50 years ago, I couldn't have told that story, because we didn't know it.It makes me really feel that that civilization--which, as I say, if you believe the scientific creation story, has emerged purely as a result of the laws of physics, and a few hydrogen atoms--then I think, to me anyway, it makes me feel incredibly valuable.So that's the LHC.The LHC is certainly, when it turns on in summer, going to write the next chapter of that book.And I'm certainly looking forward with immense excitement to it being turned on.Thanks.(Applause)

第五篇：TED演讲稿

ted精彩演讲：坠机让我学到的三件事 imagine a big explosion as you climb through 3,000 ft.imagine a plane full of smoke.imagine an engine going clack, clack, clack, clack, clack, clack, clack.it sounds scary.想像一个大爆炸，当你在三千多英尺的高空；想像机舱内布满黑烟，想像引擎发出喀啦、喀啦、喀啦、喀啦、喀啦的声响，听起来很可怕。well i had a unique seat that day.i was sitting in 1d.i was the only one who can talk to the flight attendants.so i looked at them right away, and they said, no problem.we probably hit some birds.the pilot had already turned the plane around, and we werent that far.you could see manhattan.那天我的位置很特別，我坐在1d，我是唯一可以和空服员说话的人，于是我立刻看着他们，他们说，“没问题，我们可能撞上鸟了。” 机长已经把机头转向，我们离目的地很近，已经可以看到曼哈顿了。two minutes later, 3 things happened at the same time.the pilot lines up the plane with the hudson river.thats usually not the route.he turns off the engines.now imagine being in a plane with no sound.and then he says 3 words-the most unemotional 3 words ive ever heard.he says, brace for impact.两分钟以后，三件事情同时发生：机长把飞机对齐哈德逊河，一般的航道可不是这样。他关上引擎。想像坐在一架没有声音的飞机上。然后他说了几个字，我听过最不带情绪的几个字，他说，“即将迫降，小心冲击。” i didnt have to talk to the flight attendant anymore.i could see in her eyes, it was terror.life was over.我不用再问空服员什么了。我可以在她眼神里看到恐惧，人生结束了。now i want to share with you 3 things i learned about myself that day.现在我想和你们分享那天我所学到的三件事。i leant that it all changes in an instant.we have this bucket list, we have these things we want to do in life, and i thought about all the people i wanted to reach out to that i didnt, all the fences i wanted to mend, all the experiences i wanted to have and i never did.as i thought about that later on, i came up with a saying, which is, collect bad wines.because if the wine is ready and the person is there, im opening it.i no longer want to postpone anything in life.and that urgency, that purpose, has really changed my life.在那一瞬间内，一切都改变了。我们的人生目标清单，那些我们想做的事，所有那些我想联络却没有联络的人，那些我想修补的围墙，人际关系，所有我想经历却没有经历的事。之后我回想那些事，我想到一句话，那就是，“我收藏的酒都很差。” 因为如果酒已成熟，分享对象也有，我早就把把酒打开了。我不想再把生命中的任何事延后，这种紧迫感、目标性改变了我的生命。the second thing i learnt that dayi thought about, wow, i really feel one real regret, ive lived a good life.in my own humanity and mistaked, ive tired to get better at everything i tried.but in my humanity, i also allow my ego to get in.and i regretted the time i wasted on things that did not matter with people that matter.and i thought about my relationship with my wife, my friends, with people.and after, as i reflected on that, i decided to eliminate negative energy from my life.its not perfect, but its a lot better.ive not had a fight with my wife in 2 years.it feels great.i no longer try to be right;i choose to be happy.那天我学到的第二件事是，正当我们通过乔治华盛顿大桥，那也没过多久，我想，哇，我有一件真正后悔的事。虽然我有人性缺点，也犯了些错，但我生活得其实不错。我试着把每件事做得更好。但因为人性，我难免有些自我中心，我后悔竟然花了许多时间，和生命中重要的人讨论那些不重要的事。我想到我和妻子、朋友及人们的关系，之后，回想这件事时，我决定除掉我人生中的负面情绪。还没完全做到，但确实好多了。过去两年我从未和妻子吵架，感觉很好，我不再尝试争论对错，我选择快乐。that sadness really framed in one thought, which is, i only wish for one thing.i only wish i could see my kids grow up.我所学到的第三件事是，当你脑中的始终开始倒数“15，14，13”，看到水开始涌入，心想，“拜托爆炸吧！” 我不希望这东西碎成20片，就像纪录片中看到的那样。当我们逐渐下沉，我突然感觉到，哇，死亡并不可怕，就像是我们一生一直在为此做准备，但很令人悲伤。我不想就这样离开，我热爱我的生命。这个悲伤的主要来源是，我只期待一件事，我只希望能看到孩子长大。

about a month later, i was at a performance by my daugterand please dont-but imagine, and how would you change? what would you get done that youre waiting to get done because you think youll be here forever? how would you change your relationtships and the negative energy in them? and more than anything, are you being the best parent you can? 我鼓励今天要坐飞机的各位，想像如果你坐的飞机出了同样的事，最好不要－但想像一下，你会如何改变？有什么是你想做却没做的，因为你觉得你有其它机会做它？你会如何改变你的人际关系，不再如此负面？最重要的是，你是否尽力成为一个好父母？ thank you.篇二：你不必沉迷英语 ted演讲稿

我知道你们在想什么，你们觉得我迷路了，马上就会有人走上台温和地把我带回我的座位上。（掌声）。我在迪拜总会遇上这种事。“来这里度假的吗，亲爱的？”（笑声）“来探望孩子的吗？这次要待多久呢？

恩，事实上，我希望能再待久一点。我在波斯湾这边生活和教书已经超过30年了。（掌声）这段时间里，我看到了很多变化。现在这份数据是挺吓人的，而我今天要和你们说的是有关语言的消失和英语的全球化。我想和你们谈谈我的朋友，她在阿布达比教成人英语。在一个晴朗的日子里，她决定带她的学生到花园去教他们一些大自然的词汇。但最后却变成是她在学习所有当地植物在阿拉伯语中是怎么说的。还有这些植物是如何被用作药材，化妆品，烹饪，香草。这些学生是怎么得到这些知识的呢？当然是从他们的祖父母，甚至曾祖父母那里得来的。不需要我来告诉你们能够跨代沟通是多么重要。but sadly, today, languages are dying at an unprecedented rate.a language dies every 14 days.now, at the same time, english is the undisputed global language.could there be a connection? well i dont know.but i do know that ive seen a lot of changes.when i first came out to the gulf, i came to kuwait in the days when it was still a hardship post.actually, not that long ago.that is a little bit too early.but nevertheless, i was recruited by the british council along with about 25 other teachers.and we were the first non-muslims to teach in the state schools there in kuwait.we were brought to teach english because the government wanted to modernize the country and empower the citizens through education.and of course, the u.k.benefited from some of that lovely oil wealth.但遗憾的是，今天很多语言正在以前所未有的速度消失。每14天就有一种语言消失，而与此同时，英语却无庸置疑地成为全球性的语言。这其中有关联吗？我不知道。但我知道的是，我见证过许多改变。初次来到海湾地区时，我去了科威特。当时教英文仍然是个困难的工作。其实，没有那么久啦，这有点太久以前了。总之，我和其他25位老师一起被英国文化协会聘用。我们是第一批非穆斯林的老师，在科威特的国立学校任教。我们被派到那里教英语，是因为当地政府希望国家可以现代化并透过教育提升公民的水平。当然，英国也能得到些好处，产油国可是很有钱的。okay.now this is the major change that ive seen--how teaching english has morphed from being a mutually english-speaking nation on earth.and why not? after all, the best education--according to the latest world university rankings--is to be found in the universities of the u.k.and the u.s.so everybody wants to have an english education, naturally.but if youre not a native speaker, you have to pass a test.言归正传，我见过最大的改变，就是英语教学的蜕变如何从一个互惠互利的行为变成今天这种大规模的国际产业。英语不再是学校课程里的外语学科，也不再只是英国的专利。英语（教学）已经成为所有英语系国家追逐的潮流。何乐而不为呢？毕竟，最好的教育来自于最好的大学，而根据最新的世界大学排名，那些名列前茅的都是英国和美国的大学。所以自然每个人都想接受英语教育，但如果你不是以英文为母语，你就要通过考试。now can it be right to reject a student on linguistic ability well, i dont think so.we english teachers reject them all the time.we put a stop sign, and we stop them in their tracks.they cant pursue their dream any longer, till they get english.now let me put it this way, if i met a dutch speaker who had the cure for cancer, would i stop him from entering my british university? i dont think so.but indeed, that is exactly what we do.we english teachers are the gatekeepers.and you have to satisfy us first that your english is good enough.now it can be dangerous to give too much power to a narrow segment of society.maybe the barrier would be too universal.但仅凭语言能力就拒绝学生这样对吗？譬如如果你碰到一位天才计算机科学家，但他会需要有和律师一样的语言能力吗？我不这么认为。但身为英语老师的我们，却总是拒绝他们。我们处处设限，将学生挡在路上，使他们无法再追求自己的梦想，直到他们通过考试。现在容我换一个方式说，如果我遇到了一位只会说荷兰话的人，而这个人能治愈癌症，我会阻止他进入我的英国大学吗？我想不会。但事实上，我们的确在做这种事。我们这些英语老师就是把关的。你必须先让我们满意，使我们认定你的英文够好。但这可能是危险的。把太多的权力交由这么小的一群人把持，也许会令这种障碍太过普及。okay.but, i hear you say, what about the research? its all in english.so the books are in english, the journals are done in english, but that is a self-fulfilling.it feeds the english requirement.and so it goes on.i ask you, what happened to translation? if you think about the islamic golden age, there was lots of translation then.they translated from latin and greek into arabic, into persian, and then it was translated on into the germanic languages of europe and the romance languages.and so light shone upon the dark ages of europe.now dont get me wrong;i am not against teaching english, all you english teachers out there.i love it that we have a global language.we need one today more than ever.but i am against using it as a barrier.do we really want to end up with 600 languages and the main one being english, or chinese? we need more than that.where do we draw the line? this system equates intelligence with a knowledge of english which is quite.于是，我听到你们问但是研究呢?研究报告都要用英文。”的确，研究论著和期刊都要用英文发表，但这只是一种理所当然的现象。有英语要求，自然就有英语供给，然后就这么循环下去。我倒想问问大家，为什么不用翻译呢？想想伊斯兰的黄金时代，当时翻译盛行，人们把拉丁文和希腊文翻译成阿拉伯文或波斯文，然后再由拉伯文或波斯文翻译为欧洲的日耳曼语言以及罗曼语言。于是文明照亮了欧洲的黑暗时代。但不要误会我的意思，我不是反对英语教学或是在座所有的英语老师。我很高兴我们有一个全球性的语言，这在今日尤为重要。但我反对用英语设立障碍。难道我们真希望世界上只剩下600种语言，其中又以英文或中文为主流吗？我们需要的不只如此。那么我们该如何拿捏呢？这个体制把智能和英语能力画上等号这是相当武断的。

and i want to remind you that the giants upon whose shoulders todays stand did not have to have english, they didnt have to pass an english test.case in point, einstein.he, by the way, was considered remedial at school because he was, in fact, dyslexic.but fortunately for the world, he did not have to pass an english test.because they didnt start until 1964 with toefl, the american test of english.now its exploded.there are lots and lots of tests of english.and millions and millions of students take these tests every year.now you might think, you and me, those fees arent bad, theyre okay, but they are prohibitive to so many millions of poor people.so immediately, were rejecting them.我想要提醒你们，扶持当代知识分子的这些“巨人肩膀不必非得具有英文能力，他们不需要通过英语考试。爱因斯坦就是典型的例子。顺便说一下，他在学校还曾被认为需要课外补习，因为他其实有阅读障碍。但对整个世界来说,很幸运的当时他不需要通过英语考试，因为他们直到1964年才开始使用托福。现在英语测验太泛滥了，有太多太多的英语测验，以及成千上万的学生每年都在参加这些考试。现在你会认为，你和我都这么想，这些费用不贵，价钱满合理的。但是对数百万的穷人来说，这些费用高不可攀。所以，当下我们又拒绝了他们。it brings to mind a headline i saw recently: education: the great divide.now i get it, i understand why people would focus on english.they want to give their children the best chance in life.and to do that, they need a western education.because, of course, the best jobs go to people out of the western universities, that i put on earlier.its a circular thing.这使我想起最近看到的一个新闻标题：“教育：大鸿沟”现在我懂了。我了解为什么大家都重视英语，因为他们希望给孩子最好的人生机会。为了达成这目的，他们需要西方教育。毕竟，不可否认，最好的工作都留给那些西方大学毕业出来的人。就像我之前说的，这是一种循环。

okay.let me tell you a story about two scientists, two english scientists.they were doing an experiment to do with genetics and the forelimbs and the hind limbs of animals.but they couldnt get the results they wanted.they really didnt know what to do, until along came a german scientist who realized that they were using two words for forelimb and hind limb, whereas genetics does not differentiate and neither does german.so bingo, problem solved.if you cant think a thought, you are stuck.but if another language can think that thought, then, by cooperating, we can achieve and learn so much more.好，我跟你们说一个关于两位科学家的故事：有两位英国科学家在做一项实验，是关于遗传学的，以及动物的前、后肢。但他们无法得到他们想要的结果。他们真的不知道该怎么办，直到来了一位德国的科学家。他发现在英文里前肢和后肢是不同的二个字，但在遗传学上没有区别。在德语也是同一个字。所以，叮！问题解决了。如果你不能想到一个念头，你会卡在那里。但如果另一个语言能想到那念头，然后通过合作我们可以达成目的，也学到更多。

我的女儿从科威特来到英格兰，她在阿拉伯的学校学习科学和数学。那是所阿拉伯中学。在学校里，她得把这些知识翻译成英文，而她在班上却能在这些学科上拿到最好的成绩。这告诉我们，当外籍学生来找我们，我们可能无法针对他们所知道的给予赞赏，因为那是来自于他们母语的知识。当一个语言消失时，我们不知道还有什么也会一并失去。this is--i dont know if you saw it on cnn recently--they gave the heroes award to a young kenyan shepherd boy who couldnt study at night in his village like all the village children,篇三：世上最好的演讲：ted演讲吸引人的秘密 why ted talks are better than the last speech you sat through 世上最好的演讲：ted演讲吸引人的秘密 think about the last time you heard someone give a speech, or any formal presentation.maybe it was so long that you were either overwhelmed with data, or you just tuned the speaker out.if powerpoint was involved, each slide was probably loaded with at least 40 words or figures, and odds are that you dont remember more than a tiny bit of what they were supposed to show.回想一下你上次聆听某人发表演讲或任何正式陈述的情形。它也许太长了，以至于你被各种数据搞得头昏脑胀，甚或干脆不理会演讲者。如果演讲者使用了ppt文档，那么每张幻灯片很可能塞入了至少40个单词或数字，但你现在或许只记得一丁点内容。pretty uninspiring, huh? talk like ted: 9 public-speaking secrets of the worlds best mindsexamines why in prose thats as lively and appealing as, well, a ted talk.timed to coincide with the 30th anniversary in march of those now-legendary ted conferences, the book draws on current brain science to explain what wins over, and fires up, an audience--and what doesnt.author carmine gallo also studied more than 500 of the most popular ted speeches(there have been about 1,500 so far)and interviewed scores of the people who gave them.相当平淡，是吧？《像ted那样演讲：全球顶级人才九大演讲秘诀》(talk like ted: 9 public-speaking secrets of the worlds best minds)一书以流畅的文笔审视了为什么ted演讲如此生动，如此引人入胜。出版方有意安排在今年3月份发行此书，以庆贺如今已成为经典的ted大会成立30周年。这部著作借鉴

当代脑科学解释了什么样的演讲能够说服听众、鼓舞听众，什么样的演讲无法产生这种效果。

much of what he found out is surprising.consider, for instance, the fact that each ted talk is limited to 18 minutes.that might sound too short to convey much.yet ted curator chris anderson imposed the time limit, he told gallo, because its long enough to be serious and short enough to hold peoples attention...by forcing speakers who are used to going on for 45 minutes to bring it down to 18, you get them to think about what they really want to say.its also the perfect length if you want your message to go viral, anderson says.他挖出了不少令人吃惊的演讲策略。例如，每场ted演讲都被限制在18分钟以内。听起来太过短暂，似乎无法传达足够多讯息。然而，ted大会策办人克里斯?安德森决议推行这项时间限制规则，因为“这个时间长度足够庄重，同时又足够短，能够吸引人们的注意力。通过迫使那些习惯于滔滔不绝讲上45分钟的嘉宾把演讲时间压缩至18分钟，你就可以让他们认真思考他们真正想说的话，”他对加洛说。此外，安德森说，如果你希望你的讯息像病毒般扩散，这也是一个完美的时间长度。recent neuroscience shows why the time limit works so well: people listening to a presentation are storing data for retrieval in the future, and too much information leads to cognitive overload, which gives rise to elevated levels of anxiety--meaning that, if you go on and on, your audience will start to resist you.even worse, they wont recall a single point you were trying to make.最近的神经科学研究说明了为什么这项时间限制产生如此好的效果：聆听陈述的人们往往会存储相关数据，以备未来检索之用，而太多的信息会导致“认知超负荷”，进而推升听众的焦虑度。它意味着，如果你说个没完没了，听众就会开始抗拒你。更糟糕的是，他们不会记得你努力希望传递的信息点，甚至可能一个都记不住。

如何把一个复杂的陈述压缩至18分钟左右？加洛就这个问题提供了一些小建议，其中包括他所称的“三的法则”。具体说就是，把大量观点高度浓缩为三大要点。ted大会上的许多演讲高手就是这样做的。他还指出，即使一篇演讲无法提炼到这样的程度，单是这番努力也一定能改善演讲的效果：“仅仅通过这番提炼，你就可以大大增强陈述的创造性和影响力。” then theres powerpoint.ted represents the end of powerpoint as we know it, writes gallo.he hastens to add that theres nothing wrong with powerpoint as a tool, but that most speakers unwittingly make it work against them by cluttering up their slides with way too many words(40, on average)and numbers.另一个建议与ppt文档有关。“ted大会象征着我们所知的ppt文档正走向终结，”加洛写道。他随后又马上补充说，作为工具的powerpoint本身并没有什么错，但大多数演讲者为他们的幻灯片塞进了太多的单词（平均40个）和数字，让这种工具不经意间带来了消极影响。the remedy for that, based on the most riveting ted talks: if you must use slides, fill them with a lot more images.once again, research backs this up, with something academics call the picture superiority effect: three days after hearing or reading a set of facts, most people will remember about 10% of the information.add a photo or a drawing, and recall jumps to 65%.最吸引人的ted演讲为我们提供了一个补救策略：如果你必须使用幻灯片，务必记得要大量运用图像资源。这种做法同样有科学依据，它就是研究人员所称的“图优效应”(picture superiority effect)：听到或读到一组事实三天后，大多数人会记得大约10%的信息。而添加一张照片或图片后，记忆率将跃升至65%。one study, by molecular biologist john medina at the university of washington school of medicine, found that not only could people recall more than 2,500 pictures with at least 90% accuracy several days later, but accuracy a whole year afterward was still at about 63%.华盛顿大学医学院(university of washington school of medicine)分子生物学家约翰?梅迪纳主持的研究发现，几天后，人们能够回想起超过2,500张图片，准确率至少达到90%；一年后的准确率依然保持在63%左右。that result demolishes print and speech, both of which were tested on the same group of subjects, medinas study indicated, which is something worth bearing in mind for anybody hoping that his or her ideas will be remembered.梅迪纳的研究表明，这个结果“完胜”印刷品和演讲的记忆效果（由同一组受试者测试）。任何一位希望自己的思想被听众铭记在心的演讲者或许都应该记住这一点。篇四：ted演讲稿

我是个说书之人。在这里，我想和大家分享一些我本人的故事。一些关于所谓的“单一故事的危险性”的经历。我成长在尼日利亚东部的一所大学校园里。我母亲常说我从两岁起就开始读书。不过我认为“四岁起”比较接近事实。所以我从小就开始读书，读的是英国和美国的儿童书籍。

我也是从小就开始写作，当我在七岁那年，开始强迫我可怜的母亲阅读我用铅笔写好的故事，外加上蜡笔描绘的插图时，我所写的故事正如我所读的故事那般，我故事里的人物们都是白皮肤、蓝眼睛的。常在雪中嬉戏，吃着苹果。而且他们经常讨论天气，讨论太阳出来时，一切都多么美好。我一直写着这样故事，虽然说我当时住在尼日利亚，并且从来没有出过国。虽然说我们从来没见过雪，虽然说我们实际上只能吃到芒果；虽然说我们从不讨论天气，因为根本没这个必要。

我故事里的人物们也常喝姜汁啤酒，因为我所读的那些英国书中的人物们常喝姜汁啤酒。虽然说我当时完全不知道姜汁啤酒是什么东西。时隔多年，我一直都怀揣着一个深切的渴望，想尝尝姜汁啤酒的味道。不过这要另当别论了。这一切所表明的，正是在一个个的故事面前，我们是何等的脆弱，何等的易受影响，尤其当我们还是孩子的时候，因为我当时读的所有书中只有外国人物，我因而坚信：书要想被称为书，就必须有外国人在里面，就必须是关于我无法亲身体验的事情，而这一切都在我接触了非洲书籍之后发生了改变。当时非洲书并不多，而且他们也不像国外书籍那样好找。不过因为！和！之类的作家，我思维中对于文学的概念，产生了质的改变。我意识到像我这样的人---有着巧克力般的肤色和永远无法梳成马尾辫的卷曲头发的女孩们，也可以出现在文学作品中。

我开始撰写我所熟知的事物，但这并不是说我不喜爱那些美国和英国书籍，恰恰相反，那些书籍激发了我的想象力，为我开启了新的世界。但随之而来的后果就是，我不知道原来像我这样的人，也是可以存在于文学作品中的，而与非洲作家的结缘，则是将我从对于书籍的单一故事中拯救了出来。

我来自一个传统的尼日利亚中产家庭，我的父亲是一名教授，我的母亲是一名大学管理员。因此我们和很多其他家庭一样，都会从附近的村庄中雇佣一些帮手来打理家事。在我八岁那一年，我们家招来了一位新的男仆。他的名字叫做fide.我父亲只告诉我们说，他是来自一个非常穷苦的家庭，我母亲会时不时的将山芋、大米，还有我们穿旧的衣服送到他的家里。每当我剩下晚饭的时候，我的母亲就会说：吃净你的食物！难道你不知道吗？像fide家这样的人可是一无所有。因此我对他们家人充满了怜悯。

后来的一个星期六，我们去fide的村庄拜访，他的母亲向我们展示了一个精美别致的草篮----用fide的哥哥用染过色的酒椰叶编制的。我当时完全被震惊了。我从来没有想过fide的家人居然有亲手制造东西的才能。在那之前，我对fide家唯一的了解就是他们是何等的穷困，正因为如此，他们在我脑中的印象只是一个字------“穷”。他们的贫穷是我赐予他们的单一故事。

多年以后，在我离开尼日利亚前往美国读大学的时候，我又想到了这件事。我那时19岁，我的美国室友当时完全对我感到十分惊讶了。他问我是从哪里学的讲一口如此流利的英语，而当我告知她尼日利亚刚巧是以英语作为官方语言的时候，她的脸上则是写满了茫然。她问我是否可以给她听听她所谓的“部落音乐”，可想而知，当我拿出玛丽亚凯莉的磁带时，她是何等的失望，她断定我不知道如何使用电炉。

我猛然意识到“在他见到我之前，她就已经对我充满了怜悯之心。她对我这个非洲人的预设心态是一种充满施恩与好意的怜悯之情。我那位室友的脑中有一个关于非洲的单一故事。一个充满了灾难的单一故事。在这个单一的故事中，非洲人是完全没有可能在任何方面和她有所相似的；没有可能接收到比怜悯更复杂的感情；没有可能以一个平等的人类的身份与她

沟通。

我不得不强调，在我前往美国之前，我从来没有有意识的把自己当做个非洲人。但在美国的时候，每当人们提到”非洲“时，大家都会转向我，虽然我对纳米比亚之类的地方一无所知。但我渐渐的开始接受这个新的身份，现在很多时候我都是把自己当做一个非洲人来看待。不过当人们把非洲当做一个国家来讨论的时候，我还是觉得挺反感的。最近的一次例子就发生在两天前，我从拉各斯搭乘航班，旅程原本相当愉快，直到广播里开始介绍在”印度、非洲以及其他国家”所进行的慈善事业。

当我以一名非洲人的身份在美国读过几年之后，我开始理解我那位室友当时对我的反应。如果我不是在尼日利亚长大，如果我对非洲的一切认识都是来自于大众流行的影像，我相信我眼中的非洲也同样是充满了美丽的地貌、美丽的动物，以及一群难以理解的人们进行着毫无意义的战争、死于艾滋和贫穷、无法为自己辩护，并且等待着一位慈悲的、白种的外国人的救赎，我看待非洲的方式将会和我儿时看待fide一家的方式是一样的。

我认为关于非洲的这个单一故事从根本上来自于西方的文学。这是来自伦敦商人john locke的一段话。他在1561年的时候，曾游历非洲西部，并且为他的航行做了翻很有趣的记录。他先是把黑色的非洲人称为“没有房子的野兽”，随后又写道：“他们也是一群无头脑的人，他们的嘴和眼睛都长在了他们的胸口上。”

我每次读到这一段的时候，都不禁大笑起来。他的想象力真的是让人敬佩。但关于他的作品极其重要的一点是它昭示着西方社会讲述非洲故事的一个传统，在这个传统中，撒哈拉以南的非洲充满了消极、差异以及黑暗，是伟大的诗人rudyard kipling笔下所形容的“半恶魔、半孩童”的奇异人种。

正因为如此，我开始意识到我的那位美国室友一定在她的成长过程中，看到并且听过关于这个单一故事的不同版本，就如同之前一位曾经批判我的小说缺乏“真实的非洲感”的教授一样。话说我倒是甘愿承认我的小说有几处写的不好的地方，有几处败笔，但我很难想象我的小说既然会缺乏“真实的非洲感”。事实上，我甚至不知道真实的非洲感到底是个什么东西。那位教授跟我说我书中的人物都和他太相近了，都是受过教育的中产人物。我的人物会开车，他们没有受到饥饿的困扰。正因此，他们缺乏了真实的非洲感。

我在这里不得不指出，我本人也常常被单一的故事蒙蔽双眼。几年前，我从美国探访墨西哥，当时美国的政治气候比较紧张。关于移民的辩论一直在进行着。而在美国，“移民”和“墨西哥人”常常被当做同义词来使用。关于墨西哥人的故事是源源不绝，讲的都是欺诈医疗系统、偷渡边境、在边境被捕之类的事情。

我还记得当我到达瓜达拉哈拉的第一天，看着人们前往工作，在市集上吃着墨西哥卷、抽着烟、大笑着，我记得我刚看到这一切时是何等的惊讶，但随后我的心中便充满了羞耻感。我意识到我当时完全被沉浸在媒体上关于墨西哥人的报道，以致于他们在我的脑中幻化成一个单一的个体---卑贱的移民。我完全相信了关于墨西哥人的单一故事，对此我感到无比的羞愧。这就是创造单一故事的过程，将一群人一遍又一遍地呈现为一个事物，并且只是一个事物，时间久了，他们就变成了那个事物。

而说到单一的故事，就自然而然地要讲到权力这个问题。每当我想到这个世界的权力结构的时候，我都会想起一个伊傅语中的单词，叫做“nkali”,它是一个名词，可以在大意上被翻译成”比另一个人强大。”就如同我们的经济和政治界一样，我们所讲的故事也是建立在它的原则上的。这些故事是怎样被讲述的、由谁来讲述、何时被讲述、有多少故事被讲述，这一切都取决于权力。篇五：ted演讲的十条黄金法则

如何登上ted演讲舞台——ted演讲的十条黄金法则、导读：如果你喜欢ted，甚至梦想，有一天自己也站在ted的舞台上做一个演讲，本文将介绍著名的ted演讲十个黄金法则，请往下看吧~~ 如果你喜欢ted，观看了ted的演讲视频，感到激动不已，甚至梦想，有一天自己也站在ted的舞台上做一个演讲，分享你的精彩创意想法和精彩故事！这太好了，这种热情的向往，是通往ted讲台之路的最大动力。除此之外还需要了解一些演讲技巧。these 10 tips are the heart of a great ted talk.1.dream big.strive to create the best talk you have ever given.reveal something never seen before.do something the audience will remember forever.share an idea that could change the world.给自己一个高目标，要把这个演讲做成你最成功的一个演讲。你可以向观众展示某些未曾公开展示的东西或做出能够让观众留下深刻印象的事情。分享一个有可能改变世界的想法。2.show us the real you.share your passions, your dreams...and also your fears.be vulnerable.speak of failure as well as success.展示一个最真实的你。分享你的激情、梦想，乃至恐惧。不要把自己当成是完美无缺的，你可以讲成功的故事，也可以讲失败的故事。4.connect with peoples emotions.make us laugh!make us cry!要说得动人一点，使得观众听了会发出由衷的微笑或感动到禁不住要哭泣。5.dont flaunt your ego.dont boast.it’s the surest way to switch everyone off.不要自吹自擂。那样做的话，最容易吓跑观众。

台上不能推销！除非事先有通知，否则不可谈论你的公司或组织。更别指望在台上展示你的产品。

要给其他演讲嘉宾一定的回应，可以赞可以弹。意见之对立才会擦出思维之火火嘛。激情的参与本身的力量就是这么强大的。8.if possible, dont read your talk.notes are fine.but if the choice is between reading or rambling, then read!除非万不得已，否则不要照着讲稿阅读。当然可以看自己写的小纸片。但假如不看讲稿你会表述得含糊不清的话，那还是看着稿子讲吧。9.you must end your talk on time.doing otherwise is to steal time from the people that follow you.we won’t allow it.必须在规定的时间内说完。因为超时就意味着剥夺了其他人的时间。这是不允许的。10.rehearse your talk in front of a trusted friend...for timing, for clarity, for impact.为了保证演讲准时、清晰、高质量，我们希望你提前跟朋友一起做试讲。关于ted ted于1984年由理查德·温曼和哈里·马克思共同创办，从1990年开始每年在美国加州的蒙特利举办一次，而如今，在世界的其他城市也会每半年举办一次。

它邀请世界上的思想领袖与实干家来分享他们最热衷从事的事业。“ted”由“科技”、“娱乐”以及“设计”三个英文单词首字母组成，这三个广泛的领域共同塑造着我们的未来。事实上，这场盛会涉及的领域还在不断扩展，展现着涉及几乎各个领域的各种见解。参加者们称它为 “超级大脑spa”和“四日游未来”。

大会观众往往是企业的ceo、科学家、创造者、慈善家等等，他们几乎和演讲嘉宾一样优秀。比尔·克林顿、比尔·盖茨、维基百科创始人吉米·威尔斯、dna结构的发现者詹姆斯·华森、google创办人、英国动物学家珍妮·古道尔、美国建筑大师弗兰克·盖里、歌手保罗·西蒙、维珍品牌创始人理查德·布兰森爵士、国际设计大师菲利普·斯达克以及u2乐队主唱bono都曾经担任过演讲嘉宾。

大凡有机会来到ted大会现场作演讲的均有非同寻常的经历，他们要么是某一领域的佼佼者，要么是某一新兴领域的开创人，要么是做出了某些足以给社会带来改观的创举。比如人类基因组研究领域的领军人物craig venter，“给每位孩子一百美元笔记本电脑”项目的创建人 nicholas negroponte，只身滑到北极的第一人 ben saunders，当代杰出的语言学家

steven pinker„„至于像 al gore 那样的明星就更是ted大会之常客了。每一个ted 演讲的时间通常都是18分钟以内，但是，由于演讲者对于自己所从事的事业有一种深深的热爱，他们的演讲也往往最能打动听者的心，并引起人们的思考与进一步探索。