ABOUT THE SPEAKER
Dimitar Sasselov - Astronomer
Dimitar Sasselov works on uniting the physical and life sciences in the hunt for answers to the question of how life began.

Why you should listen

Dimitar Sasselov is an astronomer who explores the interaction between light and matter. He studies, among other things, extrasolar planets, and he's a co-investigator on NASA's Kepler mission, which is monitoring 100,000 stars in a three-year hunt for exoplanets -- including Jupiter-sized giants. Sasselov watches for exoplanets by looking for transits, the act of a planet passing across the face of its star, dimming its light and changing its chemical signature. This simple, elegant way of searching has led to a bounty of newly discovered planets.

Sasselov is the director of Harvard's Origins of Life Initiative, a new interdisciplinary institute that joins biologists, chemists and astronomers in searching for the starting points of life on Earth (and possibly elsewhere). What is an astronomer doing looking for the origins of life, a question more often asked by biologists? Sasselov suggests that planetary conditions are the seedbed of life; knowing the composition and conditions of a planet will give us clues, perhaps, as to how life might form there. And as we discover new planets that might host life, having a working definition of life will help us screen for possible new forms of it. Other institute members such as biologist George Church and chemist George Whitesides work on the question from other angles, looking for (and building) alternative biologies that might fit conditions elsewhere in the universe.

More profile about the speaker
Dimitar Sasselov | Speaker | TED.com
TEDGlobal 2010

Dimitar Sasselov: How we found hundreds of potential Earth-like planets

狄米特 薩塞羅夫:發現數百顆類似地球的行星

Filmed:
1,279,451 views

天文學家薩塞羅夫他的同事們所尋找的類地行星,或許有一天,能幫助我們回答數個世紀已來人類的老問題:(在無論地球或其他星球上)關於生命的起源和其他星球上是否有生命存在?他們發現了這樣的行星有多少嗎?答案是:成百以上。
- Astronomer
Dimitar Sasselov works on uniting the physical and life sciences in the hunt for answers to the question of how life began. Full bio

Double-click the English transcript below to play the video.

00:15
Well, indeed確實, I'm very, very lucky幸運.
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我很幸運,因為
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My talk essentially實質上 got written書面
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我的演講稿是由
00:20
by three historic歷史性 events事件
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過去兩個月中,連續發生的三件
00:22
that happened發生 within days of each other
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和歷史相關的新聞事件
00:24
in the last two months個月 --
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所串連而成
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seemingly似乎 unrelated無關, but as you will see,
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看起來沒關連
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actually其實 all having to do with
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但是接下來你們會明白
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the story故事 I want to tell you today今天.
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它們其實全都和我今天所要講的故事有關
00:33
The first one was actually其實 a funeral葬禮 --
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第一個事件是一個喪禮
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to be more precise精確, a reburial安葬.
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精確一點的說,是「重埋」
00:38
On May可能 22ndND, there was a hero's英雄的 reburial安葬
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5月22號
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in Frombork弗龍堡, Poland波蘭
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在波蘭的弗龍堡
00:43
of the 16th-centuryTH-世紀 astronomer天文學家
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有位16世紀天文學英雄,獲得重埋
00:46
who actually其實 changed the world世界.
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他,曾因為確立了
00:48
He did that, literally按照字面,
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太陽系的「日心說」
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by replacing更換 the Earth地球 with the Sun太陽
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取代「地心說」
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in the center中央 of the Solar太陽能 System系統,
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改變了世界
00:55
and then with this simple-looking看起來簡單的 act法案,
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簡單的一個觀點改變
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he actually其實 launched推出 a scientific科學
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引發了科技革命
01:00
and technological技術性 revolution革命,
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你可以稱之為
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which哪一個 many許多 call the Copernican哥白尼 Revolution革命.
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哥白尼革命
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Now that was,
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那革命
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ironically諷刺地, and very befittinglybefittingly,
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和後來怎樣找到哥白尼本人的墳墓
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the way we found發現 his grave.
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非常有關
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As it was the custom習慣 of the time,
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按哥白尼時代的風俗
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Copernicus哥白尼 was actually其實
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他和其他14個人
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simply只是 buried隱藏 in an unmarked無人盯防 grave,
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無名無姓的
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together一起 with 14 others其他
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一同合葬在
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in that cathedral大教堂.
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天主教堂地窖墳墓中
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DNA脫氧核糖核酸 analysis分析,
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而DNA比對,正是
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one of the hallmarks特點
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他所發動的這場400年革命
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of the scientific科學 revolution革命
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所留下最偉大的
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of the last 400 years年份 that he started開始,
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劃時代特徵印記之一
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was the way we found發現
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最終也成為,幫我們找到
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which哪一個 set of bones骨頭
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他本人骸骨的關鍵
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actually其實 belonged屬於 to the person
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從他讀過的天文學書籍中
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who read all those astronomical天文 books圖書
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所遺留的頭髮
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which哪一個 were filled填充 with leftover hair頭髮
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比對過DNA後
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that was Copernicus'哥白尼“ hair頭髮 --
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我們在一堆骸骨中確認哪些屬哥白尼所有
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obviously明顯 not many許多 other people
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而不可能是其他人
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bothered困擾 to read these books圖書 later後來 on.
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畢竟在他之後,舊的天文學書也無人再看
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That match比賽 was unambiguous明確的.
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鑑定結果,很明確是吻合
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The DNA脫氧核糖核酸 matched匹配,
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DNA比對
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and we know that this was indeed確實
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使我們確實知道
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Nicolaus尼古拉斯 Copernicus哥白尼.
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哪些骨頭是屬於尼古拉哥白尼本人所有
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Now, the connection連接 between之間
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不過,生物學和DNA
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biology生物學 and DNA脫氧核糖核酸
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及生命之間有關連性
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and life
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並且
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is very tantalizing誘人 when you talk about Copernicus哥白尼
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和哥白尼有所相關是怎麼回事呢?
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because, even back then,
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我們知道,即便是在哥白尼時代
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his followers追隨者
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他的跟隨者也已經知道
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very quickly很快 made製作 the logical合乎邏輯 step
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下一步邏輯推論必然是
02:12
to ask: if the Earth地球 is just a planet行星,
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「如果,地球只是繞行太陽的行星
02:15
then what about planets行星 around other stars明星?
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那麼其他繞行其他恆星的行星在哪裡呢?」
02:18
What about the idea理念 of the plurality複數 of the worlds世界,
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「世界」這個概念,從此成為複數而非單數嗎?
02:20
about life on other planets行星?
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還有,在其他那些星球上的生命是什麼樣的呢?
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In fact事實, I'm borrowing借款 here from one of those
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我在這裡所借用的當時看法
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very popular流行 books圖書 of the time.
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都參考自哥白尼時相當受歡迎的一本書
02:26
And at the time,
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當時的人們
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people actually其實 answered回答 that question
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對於這個問題的答案
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positively積極: "Yes."
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肯定的回答了:「是」
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But there was no evidence證據.
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但沒有任何證據
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And here begins開始 400 years年份
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接下來的400年
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of frustration挫折, of unfulfilled未了 dreams --
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人類仍因苦無證據而深感挫折
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the dreams of Galileo伽利略, Giordano佐丹奴 Bruno布魯諾,
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這伽利略、布魯諾和其他人
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many許多 others其他 --
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空有偉大的理想
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which哪一個 never led to the answer回答
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卻對人類最基本的問題
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of those very basic基本 questions問題
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無從回答
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which哪一個 humanity人性 has asked all the time.
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人類向來不停的追問
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"What is life? What is the origin起源 of life?
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生命是什麼?生命從何而來?
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Are we alone單獨?"
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人類是唯一而孤單的嗎?
02:56
And that especially特別 happened發生 in the last 10 years年份,
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尤其來到20世紀末
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at the end結束 of the 20th century世紀,
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的最後10年
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when the beautiful美麗 developments發展
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分子生物學
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due應有 to molecular分子 biology生物學,
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有了璀璨的發現
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understanding理解 the code of life, DNA脫氧核糖核酸,
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使我們了解生命的密碼、DNA
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all of that seemed似乎 to actually其實
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所有這些發現非但
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put us, not closer接近,
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未能使人類更靠近答案
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but further進一步 apart距離 from answering回答
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反而更進一步將我們推離
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those basic基本 questions問題.
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距離這些基本答案越來越遠
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Now, the good news新聞.
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然後,好消息開始
03:18
A lot has happened發生 in the last few少數 years年份,
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集中在去年當中相繼出現
03:20
and let's start開始 with the planets行星.
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我們從行星開始講起
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Let's start開始 with the old Copernican哥白尼 question:
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從哥白尼所問的問題
03:25
Are there earths稀土 around other stars明星?
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是否有行星繞行其他恆星?
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And as we already已經 heard聽說,
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我們都知道
03:30
there is a way in which哪一個
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有一種方式
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we are trying, and now able能夠,
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正在嘗試
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to answer回答 that question.
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回答這個問題
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It's a new telescope望遠鏡.
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一架新的望遠鏡
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Our team球隊, befittinglybefittingly I think,
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我們恰如其分的
03:40
named命名 it after one of those dreamers夢想家
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依一位哥白尼時代的夢想家
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of the Copernican哥白尼 time,
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為它命名
03:44
Johannes約翰內斯 Kepler開普勒,
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(約翰尼斯)「開普勒望遠鏡」
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and that telescope's望遠鏡 sole唯一 purpose目的
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這座望遠鏡的唯一目的就是
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is to go out,
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出發,去尋找
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find the planets行星 that orbit軌道
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銀河系中繞行
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other stars明星 in our galaxy星系,
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除太陽以外其他恆星的行星
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and tell us how often經常 do planets行星 like our own擁有 Earth地球
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並捎回信息告訴我們說
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happen發生 to be out there.
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銀河系裡,還有多少類似地球的行星
04:00
The telescope望遠鏡 is actually其實
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這座望遠鏡
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built內置 similarly同樣 to
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和知名的
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the, well-known知名 to you, Hubble哈勃 Space空間 Telescope望遠鏡,
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哈柏太空望遠鏡很類似
04:06
except it does have an additional額外 lens鏡片 --
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但它捨棄了哈柏其中一個
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a wide-field寬視場 lens鏡片,
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寬視角鏡頭
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as you would call it as a photographer攝影師.
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(或稱為照相機)
04:13
And if, in the next下一個 couple一對 of months個月,
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接下來幾個月
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you walk步行 out in the early evening晚間
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入夜後你可走到戶外
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and look straight直行 up
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抬頭仰望向天
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and place地點 you palm棕櫚 like this,
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並將你的手掌像這樣舉起
04:21
you will actually其實 be looking at the field領域 of the sky天空
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那塊天空正是
04:24
where this telescope望遠鏡 is searching搜索 for planets行星
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這座望遠鏡
04:27
day and night, without any interruption中斷,
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未來四年將日以繼夜的
04:29
for the next下一個 four years年份.
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不停的搜索的區域
04:32
The way we do that, actually其實,
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我們所使用的方式是
04:34
is with a method方法, which哪一個 we call the transit過境 method方法.
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「凌日法」
04:37
It's actually其實 mini-eclipses迷你日食 that occur發生
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是迷你級的日蝕現象
04:39
when a planet行星 passes通行證 in front面前 of its star.
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發生在行星飛越過恆星面前時
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Not all of the planets行星 will be fortuitously偶然 oriented面向
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不見得所有行星都允許我們有
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for us to be able能夠 do that,
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如此純屬偶然的機會可以觀察到此現象
04:46
but if you have a million百萬 stars明星,
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但如果觀測1百萬顆恆星
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you'll你會 find enough足夠 planets行星.
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以此方式應該也能偵測到不少行星
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And as you see on this animation動畫,
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雖然在此你可以看到恆星和行星的清晰影像
04:54
what Kepler開普勒 is going to detect檢測
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但開普勒要偵測的只是
04:56
is just the dimming調光 of the light from the star.
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來自恆星的光由亮轉暗的現象
04:59
We are not going to see the image圖片 of the star and the planet行星 as this.
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我們並不是要看看到恆星和行星的清晰影像
05:02
All the stars明星 for Kepler開普勒 are just points of light.
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所有恆星對開普勒而言都僅只是光點而已
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But we learn學習 a lot from that:
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但從光點的資料使我們能明白很多
05:07
not only that there is a planet行星 there, but we also learn學習 its size尺寸.
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不僅只是那裏有一顆行星而已,還有尺寸大小
05:10
How much of the light is being存在 dimmed變暗
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光變暗的程度高低
05:12
depends依靠 on how big the planet行星 is.
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取決於行星是大還小
05:15
We learn學習 about its orbit軌道,
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也能得知它的軌道
05:17
the period of its orbit軌道 and so on.
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軌道的週期如何等等
05:19
So, what have we learned學到了?
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所以結論是
05:22
Well, let me try to walk步行 you through通過
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我接下來解釋我們的研究方法
05:25
what we actually其實 see
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然後你會明白
05:27
and so you understand理解 the news新聞
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我最後要分享的新聞
05:29
that I'm here to tell you today今天.
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那是今天的重點
05:31
What Kepler開普勒 does
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開普勒望遠鏡所做的事情就是
05:33
is discover發現 a lot of candidates候選人,
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發現許多行星「候選人」的資料
05:35
which哪一個 we then follow跟隨 up and find as planets行星,
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追蹤看看它們到底是不是
05:37
confirm確認 as planets行星.
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行星
05:39
It basically基本上 tells告訴 us
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基本上他告訴我們
05:41
this is the distribution分配 of planets行星 in size尺寸.
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行星大小的分佈情形如何
05:44
There are small planets行星, there are bigger planets行星, there are big planets行星, okay.
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行星有大也有小
05:47
So we count計數 many許多, many許多 such這樣 planets行星,
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我們可以數一數各種行星
05:50
and they have different不同 sizes大小.
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大小不同
05:52
We do that in our solar太陽能 system系統.
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我們先是針對太陽系做這件事情
05:54
In fact事實, even back during the ancients古人,
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事實上在古代
05:57
the Solar太陽能 System系統 in that sense
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太陽系的行星數量圖
05:59
would look on a diagram like this.
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看起來會像是這樣
06:01
There will be the smaller planets行星, and there will be the big planets行星,
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即便是在伊比鳩魯時代
06:04
even back to the time of Epicurus伊壁鳩魯
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人們就已知行星是有小,有大的
06:06
and then of course課程 Copernicus哥白尼
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或哥白尼時期的人
06:08
and his followers追隨者.
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當然也知道
06:10
Up until直到 recently最近, that was the Solar太陽能 System系統 --
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稍後有了有太陽系概念
06:12
four Earth-like類似地球 planets行星 with small radius半徑,
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共有4個類似地球的行星
06:15
smaller than about two times the size尺寸 of the Earth地球 --
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半徑較小,小於地球兩倍以下的就算小
06:18
and that was of course課程 Mercury,
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這包括了水星
06:20
Venus金星, Mars火星,
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金星,火星
06:22
and of course課程 the Earth地球,
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以及地球本身
06:24
and then the two big, giant巨人 planets行星.
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以及兩顆巨型行星
06:26
Then the Copernican哥白尼 Revolution革命
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哥白尼帶來
06:28
brought in telescopes望遠鏡,
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望遠鏡革命
06:30
and of course課程 three more planets行星 were discovered發現.
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然後又有兩三個行星被發現
06:32
Now the total planet行星 number
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當時太陽系行星數量
06:34
in our solar太陽能 system系統 was nine.
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是9個
06:36
The small planets行星 dominated佔主導地位,
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大多數以小行星為主
06:38
and there was a certain某些 harmony和諧 to that,
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哥白尼很開心的注意到
06:40
which哪一個 actually其實 Copernicus哥白尼 was very happy快樂 to note注意,
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大小比例之間有某種合諧性
06:43
and Kepler開普勒 was one of the big proponents支持者 of.
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開普勒望遠鏡是這個假設的大力支持者
06:46
So now we have Pluto冥王星 to join加入 the numbers數字 of small planets行星.
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當時冥王星仍被歸為小行星一類
06:49
But up until直到, literally按照字面, 15 years年份 ago,
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但直到15年前
06:52
that was all we knew知道 about planets行星.
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我們對行星的知識僅止於此
06:54
And that's what the frustration挫折 was.
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哥白尼的夢想
06:56
The Copernican哥白尼 dream夢想 was unfulfilled未了.
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仍然沒能實現
06:59
Finally最後, 15 years年份 ago,
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15年前,我們的技術
07:01
the technology技術 came來了 to the point
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終於達到一個程度
07:03
where we could discover發現 a planet行星 around another另一個 star,
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能夠發現一個行星圍繞另一顆恆星
07:06
and we actually其實 did pretty漂亮 well.
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一切進行的相當不錯
07:09
In the next下一個 15 years年份,
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15年來,透過各種不同方法發現
07:11
almost幾乎 500 planets行星
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一共將近500個行星
07:13
were discovered發現 orbiting軌道 other stars明星, with different不同 methods方法.
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這些行星環繞其他恆星
07:16
Unfortunately不幸, as you can see,
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不過,從這邊你會發現到
07:19
there was a very different不同 picture圖片.
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這個景象和我們所期待的非常不同
07:21
There was of course課程 an explanation說明 for it:
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我們只看到大的行星
07:23
We only see the big planets行星,
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這現象背後,當然有可解釋的原因
07:25
so that's why most of those planets行星
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但,總之,大部分我們觀測到的行星
07:27
are really in the category類別 of "like Jupiter木星."
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都歸在類木星這一類
07:30
But you see, we haven't沒有 gone走了 very far.
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無論如何其實我們仍在原地踏步
07:33
We were still back where Copernicus哥白尼 was.
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離哥白尼時期已經400年,進展卻不多
07:36
We didn't have any evidence證據
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我們仍然沒有證據可以顯示
07:38
whether是否 planets行星 like the Earth地球 are out there.
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像地球一樣的行星確實存在
07:40
And we do care關心 about planets行星 like the Earth地球
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這件事對我們很重要,因為
07:43
because by now we understood了解
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現在我們所明白的是,生命
07:45
that life as a chemical化學 system系統
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有如一個化學體系般
07:48
really needs需求 a smaller planet行星
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它需要比較小的行星
07:50
with water and with rocks岩石
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有水有土壤岩石
07:52
and with a lot of complex複雜 chemistry化學
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以及一些相當複雜的化學
07:54
to originate起源, to emerge出現, to survive生存.
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然後生命得以起源,出現,生存
07:57
And we didn't have the evidence證據 for that.
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但我們獨缺證據
08:00
So today今天, I'm here to actually其實 give you a first glimpse一瞥
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今天我在這裡要向各位說明的就是
08:02
of what the new telescope望遠鏡, Kepler開普勒,
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最新的開普勒望遠鏡
08:05
has been able能夠 to tell us in the last few少數 weeks,
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在過去幾週當中的新發現
08:08
and, lo and behold不料,
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非常令人驚訝的,你將看到
08:10
we are back to the harmony和諧
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我們回到了哥白尼所夢想的
08:12
and to fulfilling履行 the dreams of Copernicus哥白尼.
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大小行星,呈現
08:15
You can see here,
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均勻分佈狀態
08:17
the small planets行星 dominate支配 the picture圖片.
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小行星佔多數
08:19
The planets行星 which哪一個 are marked "like Earth地球,"
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標示為「類地球」的行星
08:22
[are] definitely無疑 more than
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比其他任何一類
08:24
any other planets行星 that we see.
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的行星都多
08:26
And now for the first time, we can say that.
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這是第一次我們可肯定的說
08:28
There is a lot more work we need to do with this.
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關於這些結果還有很多後續工作要做
08:31
Most of these are candidates候選人.
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這些大部分只是符合初步條件的候選人
08:33
In the next下一個 few少數 years年份 we will confirm確認 them.
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還需要幾年才能確認結果
08:35
But the statistical統計 result結果
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但統計結果
08:37
is loud and clear明確.
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會大聲而很清楚的說話
08:39
And the statistical統計 result結果 is that
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統計數字說明
08:42
planets行星 like our own擁有 Earth地球
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類似地球的行星
08:44
are out there.
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有滿多的
08:46
Our own擁有 Milky乳白色 Way Galaxy星系 is rich豐富 in this kind of planets行星.
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我們銀河系就有很多
08:49
So the question is: what do we do next下一個?
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問題是:下一步又如何?
08:52
Well, first of all, we can study研究 them
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第一步我們先研究
08:54
now that we know where they are.
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已知它們所在的位置
08:57
And we can find those that we would call habitable可居住,
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得知它是否符合可居住的條件
09:00
meaning含義 that they have similar類似 conditions條件
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也就是,它的條件
09:02
to the conditions條件
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和我們在地球上生活
09:04
that we experience經驗 here on Earth地球
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所體驗的條件相類似?
09:07
and where a lot of complex複雜 chemistry化學 can happen發生.
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因為一些複雜的化學在特定條件下才可以發生
09:10
So, we can even put a number
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我們可以推測
09:13
to how many許多 of those planets行星
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這樣的行星
09:15
now do we expect期望 our own擁有
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在銀河系裡有多少
09:17
Milky乳白色 Way Galaxy星系 harbors港口.
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而這個答案是
09:19
And the number, as you might威力 expect期望,
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您或許已經猜的出來
09:21
is pretty漂亮 staggering踉蹌.
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是頗為驚人的:
09:23
It's about 100 million百萬 such這樣 planets行星.
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大約有一億顆!
09:26
That's great news新聞. Why?
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這是大好的消息,不是嗎?
09:28
Because with our own擁有 little telescope望遠鏡,
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運用這樣小小的望遠鏡
09:30
just in the next下一個 two years年份,
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短短兩年的觀測
09:32
we'll be able能夠 to identify鑑定 at least最小 60 of them.
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就發現了60個初步符合條件的行星
09:35
So that's great because then
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這當然是好消息
09:37
we can go and study研究 them --
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因為我們會繼續
09:39
remotely遠程, of course課程 --
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當然是,用遠距的方式
09:41
with all the techniques技術 that we already已經 have
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用一些現有的技術
09:43
tested測試 in the past過去 five years年份.
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在過去五年中已經測試過的
09:45
We can find what they're made製作 of,
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可以了解它的組成成分
09:47
would their atmospheres氣氛 have water, carbon dioxide二氧化碳, methane甲烷.
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大氣層有無水份,二氧化碳,甲烷
09:50
We know and expect期望 that we'll see that.
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經由了解然後,期待能看見
09:54
That's great, but that is not the whole整個 news新聞.
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這聽起來很棒,但他還不算是全部
09:57
That's not why I'm here.
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這還不是今天所要講的重點
10:00
Why I'm here is to tell you that the next下一個 step
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今天要談的是我們的下一步
10:03
is really the exciting扣人心弦 part部分.
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是真正令人振奮的好消息
10:06
The one that this step
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這下一步
10:08
is enabling啟用 us to do is coming未來 next下一個.
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能帶領我們預備好迎接更後面將來的
10:11
And here comes biology生物學 --
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那就是生物
10:13
biology生物學, with its basic基本 question,
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在生物學領域,還有基本問題
10:16
which哪一個 still stands站立 unanswered懸而未決,
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仍然未獲解答
10:18
which哪一個 is essentially實質上:
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而那就是
10:20
"If there is life on other planets行星,
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「如果其他星球上是有生命的話
10:22
do we expect期望 it to be like life on Earth地球?"
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我們是否認為它會和地球生物一樣?」
10:25
And let me immediately立即 tell you here,
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我想先表達一件事
10:27
when I say life, I don't mean "dolceDOLCE vita個人簡歷,"
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這裡所說「生命」,並非
10:29
good life, human人的 life.
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等同於「快樂生活著」這種人類的生命
10:31
I really mean life
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我所指的生命是:
10:34
on Earth地球, past過去 and present當下,
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過去,現在和未來在地球上
10:36
from microbes微生物 to us humans人類,
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從微生物到人類
10:38
in its rich豐富 molecular分子 diversity多樣,
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具有豐富的分子多樣性
10:41
the way we now understand理解 life on Earth地球
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以我們現在所明白的在地球上的生命形式
10:44
as being存在 a set of molecules分子 and chemical化學 reactions反應 --
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有著成組的分子和彼此化學反應
10:47
and we call that, collectively, biochemistry生物化學,
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我們統稱為,生物化學
10:50
life as a chemical化學 process處理,
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生命是一個化學過程
10:53
as a chemical化學 phenomenon現象.
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是一個化學上的現象
10:55
So the question is:
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所以問題是
10:57
is that chemical化學 phenomenon現象 universal普遍,
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這樣的化學現象是否具有普及全宇宙皆準的一致性?
11:00
or is it something
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抑或是
11:02
which哪一個 depends依靠 on the planet行星?
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它將因個別星球而異?
11:04
Is it like gravity重力,
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它會像重力原理一樣
11:06
which哪一個 is the same相同 everywhere到處 in the universe宇宙,
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在宇宙中任何一處都適用?
11:08
or there would be all kinds of different不同 biochemistries生物化學性質
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還是宇宙間充滿形形色色,大異其趣的許多生物化學
11:11
wherever哪裡 we find them?
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各隨其所在環境而變異?
11:13
We need to know what we are looking for
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在我們嘗試新探索以前
11:16
when we try to do that.
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必須先知道我們想要找的是什麼
11:18
And that's a very basic基本 question, which哪一個 we don't know the answer回答 to,
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那是非常基礎,而我們不知道其答案為何的問題
11:21
but which哪一個 we can try --
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但可以嘗試
11:23
and we are trying -- to answer回答 in the lab實驗室.
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可以先在實驗室裡嘗試
11:25
We don't need to go to space空間
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不需要在太空中嘗試
11:27
to answer回答 that question.
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有些問題是可以先取得答案的
11:29
And so, that's what we are trying to do.
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那就是我們所在做的試驗
11:31
And that's what many許多 people now are trying to do.
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也是許多人正在努力嘗試的
11:34
And a lot of the good news新聞 comes from that part部分 of the bridge
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這像是一座通往某處的橋樑
11:37
that we are trying to build建立 as well.
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在一邊造橋的過程,我們已經聽見有些好消息傳來
11:40
So this is one example
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這裡有一個例子
11:42
that I want to show顯示 you here.
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我想和各位分享
11:44
When we think of what is necessary必要
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我們一向以為
11:46
for the phenomenon現象 that we call life,
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要起始生命這種奇妙的現象
11:49
we think of compartmentalization劃分,
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分室作用是必須的
11:52
keeping保持 the molecules分子 which哪一個 are important重要 for life
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它會把對生命而言,有重要性的分子
11:55
in a membrane,
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個別包裹在膜裡面
11:57
isolated孤立 from the rest休息 of the environment環境,
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使它與週遭環境隔絕開來
11:59
but yet然而, in an environment環境 in which哪一個
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但我們發現,在一個環境中
12:01
they actually其實 could originate起源 together一起.
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這些分子事實上可以一起共同產生
12:04
And in one of our labs實驗室,
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這是由我們的一個實驗室
12:06
Jack插口 Szostak's紹斯塔克的 labs實驗室,
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傑克史塔克實驗室
12:08
it was a series系列 of experiments實驗
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過去四年
12:10
in the last four years年份
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進行一系列的實驗中所得到的發現
12:12
that showed顯示 that the environments環境 --
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有些和地球環境
12:14
which哪一個 are very common共同 on planets行星,
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條件相類似的行星
12:16
on certain某些 types類型 of planets行星 like the Earth地球,
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在那裡
12:19
where you have some liquid液體 water and some clays粘土 --
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有些水,和土壤
12:22
you actually其實 end結束 up with
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然後
12:25
naturally自然 available可得到 molecules分子
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很自然的有些分子出現
12:27
which哪一個 spontaneously自發 form形成 bubbles泡泡.
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自發性的形成了泡沫
12:30
But those bubbles泡泡 have membranes
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這些泡沫所具有的膜
12:33
very similar類似 to the membrane of every一切 cell細胞
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和每一個地球生物所具有的
12:36
of every一切 living活的 thing on Earth地球 looks容貌 like,
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細胞的膜是非常類似
12:39
like this.
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像這樣
12:41
And they really help molecules分子,
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這對於分子形成
12:43
like nucleic核酸 acids, like RNARNA and DNA脫氧核糖核酸,
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對核酸,核糖核酸和DNA
12:46
stay inside, develop發展,
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在其中發展
12:48
change更改, divide劃分
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變化,分裂
12:50
and do some of the processes流程 that we call life.
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以及進行一些我們稱為生命的過程都很有幫助
12:53
Now this is just an example
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這是其中一個例子
12:55
to tell you the pathway
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用來說明我們前進所採取途徑
12:57
in which哪一個 we are trying to answer回答
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是我們用來宏觀回答
12:59
that bigger question about the universality普遍性 of the phenomenon現象.
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生命現象具有什麼普遍原則的途徑之一
13:03
And in a sense, you can think of that work
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某種程度上,你可以將目前
13:06
that people are starting開始 to do now around the world世界
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世界各地人們為此所進行的這些相關工作
13:08
as building建造 a bridge,
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比喻成搭建一座橋樑
13:10
building建造 a bridge from two sides雙方 of the river.
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彼此各從河的兩岸搭一座橋
13:13
On one hand, on the left bank銀行 of the river,
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一方,在左岸
13:16
are the people like me who study研究 those planets行星
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有些研究行星的人,如我
13:19
and try to define確定 the environments環境.
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試著定義生命合適的環境為何
13:21
We don't want to go blind because there's too many許多 possibilities可能性,
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可能性太多,我們不能盲目以赴
13:24
and there is not too much lab實驗室,
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實驗室的資源
13:27
and there is not enough足夠 human人的 time
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人力時間
13:29
to actually其實 to do all the experiments實驗.
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都不允許我們一一完成所有實驗
13:31
So that's what we are building建造 from the left side of the river.
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這就是左岸的工作人員在努力嘗試的部份
13:34
From the right bank銀行 of the river
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從右岸
13:36
are the experiments實驗 in the lab實驗室 that I just showed顯示 you,
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有我剛剛展現給各位看的那種實驗正在進行
13:39
where we actually其實 tried試著 that, and it feeds供稿 back and forth向前,
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我們可以試圖看這樣來回互通有無
13:42
and we hope希望 to meet遇到 in the middle中間 one day.
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希望有一天能在中間點相會
13:45
So why should you care關心 about that?
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但是,請問你為什麼要聽我
13:48
Why am I trying to sell you
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對你兜售一個才建了一半
13:50
a half-built建了一半的 bridge?
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一半都還不到的橋?
13:52
Am I that charming迷人?
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靠我的帥氣魅力嗎?
13:55
Well, there are many許多 reasons原因,
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原因有很多
13:57
and you heard聽說 some of them
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今天的短講中
13:59
in the short talk today今天.
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有一部分原因你已經聽過了
14:01
This understanding理解 of chemistry化學
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對化學的更多了解
14:03
actually其實 can help us
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事實上不僅在日常生活上
14:05
with our daily日常 lives生活.
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能幫助我們
14:07
But there is something more profound深刻 here,
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它其實是有更豐富
14:09
something deeper更深.
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更深層的意義
14:11
And that deeper更深, underlying底層 point
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這更深層的基本論點是在於:
14:15
is that science科學
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科學
14:17
is in the process處理 of redefining重新定義 life
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就是將已知的生命定義
14:20
as we know it.
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重新定義的一個過程
14:22
And that is going to change更改
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這將極大的改變我們的
14:24
our worldview世界觀 in a profound深刻 way --
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世界觀
14:27
not in a dissimilar相異 way
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與400年前的世界觀
14:29
as 400 years年份 ago,
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真正有所不同
14:31
Copernicus'哥白尼“ act法案 did,
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哥白尼的革命
14:33
by changing改變 the way
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改變了我們
14:35
we view視圖 space空間 and time.
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看待時間和空間的觀點
14:37
Now it's about something else其他,
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現在這個新革命,重點雖不同
14:39
but it's equally一樣 profound深刻.
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但意涵很豐富是無庸置疑的
14:41
And half the time,
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一半
14:43
what's happened發生
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是關於
14:45
is it's related有關 this kind of
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人類的
14:47
sense of insignificance渺小
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渺小
14:49
to humankind人類,
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小地球和大宇宙
14:51
to the Earth地球 in a bigger space空間.
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無可比擬的微不足道
14:53
And the more we learn學習,
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所知越多
14:56
the more that was reinforced加強.
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渺小感越發強烈
14:59
You've all learned學到了 that in school學校 --
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學校老師都敎過我們
15:01
how small the Earth地球 is
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和無垠的宇宙相比
15:03
compared相比 to the immense巨大 universe宇宙.
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地球有多麼渺小
15:05
And the bigger the telescope望遠鏡,
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而望遠鏡越大
15:07
the bigger that universe宇宙 becomes.
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宇宙就更大
15:09
And look at this image圖片 of the tiny, blue藍色 dot.
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你看這顆小藍點的影像
15:12
This pixel像素 is the Earth地球.
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這一粒畫素就是地球
15:14
It is the Earth地球 as we know it.
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就是我們所熟悉認識的地球
15:16
It is seen看到 from, in this case案件,
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這張圖是由土星軌道以外的拍攝點
15:18
from outside the orbit軌道 of Saturn土星.
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看見的地球
15:21
But it's really tiny.
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真的很渺小
15:23
We know that.
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這是我們所清楚知道的
15:25
Let's think of life as that entire整個 planet行星
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且若我們把生命當作是這整顆星球
15:27
because, in a sense, it is.
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因為就某種意義而言,它確實就是如此
15:29
The biosphere生物圈 is the size尺寸 of the Earth地球.
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地球多大,生物圈就是多大
15:31
Life on Earth地球
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並且地球上的生命
15:33
is the size尺寸 of the Earth地球.
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大小不超過地球本身
15:35
And let's compare比較 it to the rest休息 of the world世界
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倘若我們將它和世界相比較
15:38
in spatial空間的 terms條款.
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與「宇宙規模」的世界相比
15:40
What if that
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如果像這樣的,哥白尼所引領
15:42
Copernican哥白尼 insignificance渺小
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我們去感受到的渺小感
15:45
was actually其實 all wrong錯誤?
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竟然其實全是錯誤的話,會如何呢?
15:47
Would that make us more responsible主管
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是否,我們對於今天
15:49
for what is happening事件 today今天?
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會更負責一點?
15:51
Let's actually其實 try that.
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如果會的話,我們何不嘗試看看?
15:53
So in space空間, the Earth地球 is very small.
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看到在太空中,地球真的很小
15:56
Can you imagine想像 how small it is?
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能想像的到嗎?
15:58
Let me try it.
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我來試試看
16:00
Okay, let's say
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這是
16:02
this is the size尺寸
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我們觀測到的
16:04
of the observable可觀察 universe宇宙,
405
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宇宙的大小長度
16:06
with all the galaxies星系,
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包括所有星系
16:08
with all the stars明星,
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所有恆星
16:10
okay, from here to here.
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從這裡到這裡
16:12
Do you know what the size尺寸 of life
409
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2000
你知道生命的體積長度
16:14
in this necktie領帶 will be?
410
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在這條領帶上佔多少比例嗎?
16:17
It will be the size尺寸
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它將會是
16:20
of a single, small atom原子.
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2000
單一一顆原子的大小
16:22
It is unimaginably超乎想像 small.
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無法想像的微小
16:24
We can't imagine想像 it.
414
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幾乎無法想像的程度
16:26
I mean look, you can see the necktie領帶,
415
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你看的見整條領帶
16:28
but you can't even imagine想像 seeing眼看
416
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但你怎能想像看的見
16:30
the size尺寸 of a little, small atom原子.
417
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其中一顆原子呢?
16:33
But that's not the whole整個 story故事, you see.
418
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但故事的全貌不止如此
16:36
The universe宇宙 and life
419
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宇宙和生命
16:38
are both in space空間 and time.
420
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同樣存在於空間,以及「時間」中
16:41
If that was
421
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如果宇宙的時間
16:44
the age年齡 of the universe宇宙,
422
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長度像這樣
16:46
then this is the age年齡 of life on Earth地球.
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這是地球的生命
16:50
Think about those oldest最老的 living活的 things on Earth地球,
424
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你可以想像地球上最古老的生命
16:53
but in a cosmic宇宙的 proportion比例.
425
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有著遍及全宇宙的蹤跡
16:55
This is not insignificant微不足道.
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這就不再渺小了
16:58
This is very significant重大.
427
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這是非常有意義且重要
17:00
So life might威力 be insignificant微不足道 in size尺寸,
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從大小來看,生命或許渺小微不足道
17:03
but it is not insignificant微不足道 in time.
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而從時間來看,意義卻大不相同
17:07
Life and the universe宇宙
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生命和宇宙
17:09
compare比較 to each other like a child兒童 and a parent,
431
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像一個孩子和父母親相比
17:12
parent and offspring子孫.
432
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2000
父母和他所生的後代
17:14
So what does this tell us?
433
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這對我們有什麼意義?
17:16
This tells告訴 us that
434
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它的意義是
17:18
that insignificance渺小 paradigm範例
435
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從哥白尼時代開始灌輸我們
17:20
that we somehow不知何故 got to learn學習
436
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這種「渺小感」的示範演譯
17:22
from the Copernican哥白尼 principle原理,
437
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2000
這樣的既有模型
17:24
it's all wrong錯誤.
438
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其實,全是錯誤的!
17:26
There is immense巨大, powerful強大 potential潛在
439
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宇宙中的生命不僅是大有潛能
17:29
in life in this universe宇宙 --
440
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並且沒有止盡,強而有力
17:31
especially特別 now that we know
441
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尤其是現在我們已能肯定
17:33
that places地方 like the Earth地球 are common共同.
442
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宇宙中,還有許多環境和地球類似的星球
17:37
And that potential潛在, that powerful強大 potential潛在,
443
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因而,在那些地方,生命的潛在可能
17:40
is also our potential潛在,
444
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是大有可為的存在著可能性
17:42
of you and me.
445
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這些全都是你的,和我的未來無限可能
17:44
And if we are to be stewards管家
446
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如果我們要當
17:46
of our planet行星 Earth地球
447
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地球的管理者
17:48
and its biosphere生物圈,
448
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在地球的生物圈中扮演好管理者的角色
17:50
we'd星期三 better understand理解
449
1055000
2000
我們最好明白
17:52
the cosmic宇宙的 significance意義
450
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如此廣及全宇宙的重大意義
17:54
and do something about it.
451
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並且急起努力直追
17:56
And the good news新聞 is we can
452
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而好消息正是,這是我們能夠做的
17:58
actually其實, indeed確實 do it.
453
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我們真的能夠做得到
18:00
And let's do it.
454
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所以,我們出發吧
18:02
Let's start開始 this new revolution革命
455
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讓我們展開另一個革命
18:04
at the tail尾巴 end結束 of the old one,
456
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此刻正是舊的革命將近尾聲
18:07
with synthetic合成的 biology生物學 being存在
457
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2000
而合成生物學又即將
18:09
the way to transform轉變
458
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開始轉化我們的
18:11
both our environment環境
459
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環境和
18:13
and our future未來.
460
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未來的此刻
18:15
And let's hope希望 that we can build建立 this bridge together一起
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我們可以滿懷期待
18:17
and meet遇到 in the middle中間.
462
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我們會將兩岸的橋搭起,並且期待彼此相連
18:19
Thank you very much.
463
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謝謝大家
18:21
(Applause掌聲)
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(掌聲)
Translated by Lauren Huang
Reviewed by Lin Su-Wei()

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ABOUT THE SPEAKER
Dimitar Sasselov - Astronomer
Dimitar Sasselov works on uniting the physical and life sciences in the hunt for answers to the question of how life began.

Why you should listen

Dimitar Sasselov is an astronomer who explores the interaction between light and matter. He studies, among other things, extrasolar planets, and he's a co-investigator on NASA's Kepler mission, which is monitoring 100,000 stars in a three-year hunt for exoplanets -- including Jupiter-sized giants. Sasselov watches for exoplanets by looking for transits, the act of a planet passing across the face of its star, dimming its light and changing its chemical signature. This simple, elegant way of searching has led to a bounty of newly discovered planets.

Sasselov is the director of Harvard's Origins of Life Initiative, a new interdisciplinary institute that joins biologists, chemists and astronomers in searching for the starting points of life on Earth (and possibly elsewhere). What is an astronomer doing looking for the origins of life, a question more often asked by biologists? Sasselov suggests that planetary conditions are the seedbed of life; knowing the composition and conditions of a planet will give us clues, perhaps, as to how life might form there. And as we discover new planets that might host life, having a working definition of life will help us screen for possible new forms of it. Other institute members such as biologist George Church and chemist George Whitesides work on the question from other angles, looking for (and building) alternative biologies that might fit conditions elsewhere in the universe.

More profile about the speaker
Dimitar Sasselov | Speaker | TED.com

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