羅焜哲的部落格

06 January

LHC rap影音 from youtube

LHC rap

史上拍攝費用最驚人的MV

單單背景的搭建,就耗費了45億美元..... 

LHC rap影音 from youtube

http://tw.youtube.com/watch?v=j50ZssEojtM

23:28:12 - 羅 焜哲 - 2 回應

LHC Rap 歌詞翻譯

大強子對撞機Rap    羅焜哲譯

 

27公里長的隧道在地底下,

用心設計使質子在媕Y繞著轉,

一個大圈圈橫跨瑞士與法國,

60個國家的貢獻促使科學進展。

 

二道質子束順著環繞行,

一直到偵側器的中心他們相撞!!

 

所有的能量集中在如此小的空間

由真空中創造出有質量的粒子

然後

 

LHCb看到反物質的去向

ALICE觀察鉛離子的碰撞

CMS與ATLAS是一樣的東西

他們搜尋任何可能出現的新粒子

 

LHC加速質子與鉛,

即將發現的事會激盪你的心

 

我們看到小行星、星球與恆星在發光

我們也知道在每個銀河的中心都有黑洞存在

但是看得到的物質還無法解釋這些星體如何能聚集,一定還有其他的東西

這就是暗物質,只有重力能作用

但你要如何抓到一個粒子,而它根本看不到

讓我們回到能量守痝o件事

這個粒子就無可遁形

 

你可看見粒子濺出往這邊飛

但你注意到另一個方向不可能什麼都沒有

如果你說"守恆定律被推翻了"

這是在胡扯

必然會有其他的粒子來維持守恆

 

這就是暗物質,而且第一次,

我們對充塞大部份宇宙的暗物質可以驚鴻一瞥

因為...

 

LHCb看到反物質的去向

ALICE觀察鉛離子的碰撞

CMS與ATLAS是一樣的東西

他們搜尋任何可能出現的新粒子

 

 

反物質就像是物質邪惡的雙生兄弟

因為除了電性與自旋方向外他們全部都相同

但你無法把任何的反物質粒子儲存

 

因為當物質與反物質相遇時,他們同歸於盡成為能量,然後散失

 

 

物質可由能量重新創造,

這就是他們在LHC中要做的事

你可以得到等量的物質與反物質

他們試著帶你回到宇宙的開端

--大霹靂

 

 

回到當初爆炸的時候

但反物質的數量不知怎麼的愈來愈少

因為現在看看四周全都是物質

反物質卻到處都找不到

那就是為什麼

 

LHCb看到反物質的去向

ALICE觀察鉛離子的碰撞

CMS與ATLAS是一樣的東西

他們搜尋任何可能出現的新粒子

LHC加速質子與鉛離子,

即將發現的事會激盪你的心

 

 

 

希格思粒子,就是大家都在討論的那一顆

而且也就是這台機器最確定要找出的首要目標

如果希格思粒子存在那麼你要立刻指給我看

如果它不存在,科學家會說

原來沒有希格思,那麼我們要提出新的物理學理論來解釋!為什麼有些粒子有質量?我們的標準模型有些地方要修正。

但是希格思--我還沒說它到底如何運作。他們猜想粒子之所以會有質量是因為就是希格思場濔漫了整個空間。

有些粒子以光速前進,像光子--它沒有質量。當有些粒子卻不行

有些粒子有質量--

像頂夸克,它被質量拖住---

 

 

希格思粒子是攜帶力的一種波色子並因為它的場使其他的粒子因此而各歸其位

LHC將偵測它

 

LHCb看到反物質那兒去了

ALICE觀察鉛離子的碰撞

CMS與ATLAS是一樣的東西

他們搜尋任何可能出現的新粒子

 

 

你們有些人會認為重力很強

因為當你從腳踏車上跌落地面,只要一下子的時間,然後你會咒罵:"他媽的!真痛!"

但你真認為重力很強大,你大錯特錯

你知道嗎,重力還比弱力更弱!

這就是很多科學家還在尋尋覓覓解釋的原因

科學家想到了維度

我們生活在三個維度之中,但有可能還有其他的維度

是太小了我們感受不到

就是因為重力延伸進這些小的維度,在我們這邊才顯得如此的弱

 

其他的維度可能是捲起來的,捲縮得如此之緊,所以不影響到你的每天的生活

但如果你像重力子般的微小,你就可以進入這些維度中亂晃,

 

然後他們就會發現你

 

當LHCb看到反物質的去向

ALICE觀察鉛離子的碰撞

CMS與ATLAS是一樣的東西

他們搜尋任何可能出現的新粒子

 

LHC加速質子與鉛,

即將發現的事會激盪你的心

23:24:45 - 羅 焜哲 - 5 回應

LHC Rap lyrics

Large Hadron Collider Rap   by Kat McAlpine

Twenty-seven kilometers of tunnel underground,

designed with mind to send protons around

a circle that crosses through Swtizerland and France.

Sixty nations contribute to scientific advance.

 

Two beams of protons swing 'round through the ring they ride

'til in the hearts of the detectors they're made to collide!

 

And all that energy packed in such a tiny bit of room

becomes mass particles created from the vacuum

And then....

 

LHCb sees where the antimatter's gone

ALICE looks at collisions of lead ions

CMS and ATLAS are two of a kind:

They're looking for whatever new particles they can find

 

The LHC accelerates the protons and the lead,

and the things that it discovers will rock you in the head.

 

We see asteroids and planets stars galore

We know a black hole resides at each galaxy's core.

But even all that matter cannot explain what holds

all these stars together something else remains.

 

This dark matter interacts only through gravity

And how do you catch a particle there's no way to see?

take it back to consevation of energy,

and the particles appear clear as can be

 

You see particles flyin' in jets they spray,

but you notice there ain't nothin' goin' the other way.

 

You say, "My law has just been violated!

That don't make sense!

There's gotta be another particle to make this balance!"

 

And it might be dark matter and for the first time,

we catch a glimpse of what must fill

most of the known 'Verse

Because...

 

LHCb sees where the antimatter's gone

ALICE looks at collisions of lead ions.

CMS and ATLAS are two of a kind

They're looking for whatever new particles they can find.

 

Antimatter is sort of like matter's evil twin.

Because except for charge and handedness of spin,

they're the same for a particle and its anti-self,

but you can't store an anti-particle of any shelf.

 

Cuz when it meets its normal twin, they both annihilate.

Matter turns to energy, and then, it dissipates.

 

When matter is created from energy,

which is exactly what they'll do in the LHC,

you get matter and antimatter in equalparts,

and they try to take this back to when the universe starts:

the Big Bang.

 

Back when all the matter exploded,

But the amount of antimatter was somehow eroded!

Because when we look around we see that matter abounds,

but the antimatter's nowhere to be found.

That's why....

 

LHCb sees where the antimatter's gone

ALICE looks at collisions of lead ions.

CMS and ATLAS are two of a kind:

They're looking for whatever new particles they can find.

The LHC accelerates the protons and the lead,

and the things that it discovers will rock you in the head.

 

The Higgs boson, that's the one that everybody talks about,

and it's the one sure thing that this machine will sort out.

If the Higgs exists they ought to see it right away,

And if it doesn't, the scientists will finally say,

 

"There is no Higgs! We need new physics

to account for why things have mass."

"Something in our Standard Model went awry!"

 

But the Higgs - I still haven't said just what it does.

They suppose that particles have mass because

There is this Higgs field that extends through all space,

and some particles slow down while other particles race

straight through, like the photon

it has no mass but something heavy

like the top quark, it's draggin' its ---(!)

 

And the Higgs is a boson that carries a force,

and makes particles take orders

from the field that is its source.

They'll detect it...

 

LHCb sees where the antimatter's gone

ALICE looks at collisions of lead ions.

CMS and ATLAS are two of a kind:

They're looking for whatever new particles they can find.

 

Now some of you may think that gravity is strong,

cuz when you fall off your bicycle, it don't take long

Until you hit the earth, and you say,"Dang that hurt!"

 

But if you think the force is powerful, you're wrong.

You see, gravity, it's weaker than weak!

And the reason why is something many scientists seek.

 

They think about dimensions.

We live in just three, but maybe there are others

that are too small to see.

 

It's into these dimensions that gravity extends,

which makes it seem weaker here on our end.

 

And these dimensions are rolled up, curled so tight

that they don't affect you in your day-to-day life.

 

but if you were as tiny as a graviton,

you could enter these dimensions and go wandering on.

And they'd find you...

 

When LHCb sees where the antimatter's gone

ALICE looks at collisions of lead ions.

CMS and ATLAS are two of a kind:

They're looking for whatever new particles they can find.

The LHC accelerates the protons and the lead,

and the things that it discovers will rock you in the head.
23:20:46 - 羅 焜哲 - 2 回應

10 September

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15:46:05 - 羅 焜哲 - 1 回應