はてなキーワード: Steelとは
和訳がつめこみすぎてるだけで原語だとわりと聞けるってのは赤鼻のトナカイも同じなんだけど
“London Bridge Is Falling Down” Lyrics
London Bridge is falling down,
London Bridge is falling down,
My fair Lady.
Build it up with wood and clay,
Wood and clay, wood and clay,
Build it up with wood and clay,
My fair Lady.
My fair Lady.
Build it up with bricks and mortar,
Bricks and mortar, bricks and mortar,
Build it up with bricks and mortar,
My fair Lady.
Bricks and mortar will not stay,
Bricks and mortar will not stay,
My fair Lady.
Build it up with iron and steel,
Iron and steel, iron and steel,
Build it up with iron and steel,
My fair Lady.
Iron and steel will bend and bow,
Bend and bow, bend and bow,
Iron and steel will bend and bow,
My fair Lady.
Build it up with silver and gold,
Silver and gold, silver and gold,
Build it up with silver and gold,
My fair Lady.
Silver and gold will be stolen away,
Silver and gold will be stolen away,
My fair Lady.
Watch all night, watch all night,
My fair Lady.
Suppose the man should fall asleep,
Suppose the man should fall asleep?
My fair Lady.
Give him a pipe to smoke all night,
Smoke all night, smoke all night,
Give him a pipe to smoke all night,
My fair Lady.
Woho. Anglers are allowed two salmon per day with a minimum size for Chinook at 24 inches or larger. Salmon seasons from May 2016 to April 30, 2017 are currently being developed.
Last weekend Prowler Charters here in Bandon took clients out bottomfishing. Fishing for rockfish was excellent, but very few ling cod were taken. Strong ocean currents made for a fast drift which makes the conditions tough. Wayne Butler, the captain of the Miss Chief, told me that the depth at the Bandon bar was much deeper than last year. This winter's large rain event naturally flushed out the entrance, which makes bar crossings much safer. Anglers surf fishing out at Bullards Beach State Park reported good pinkfin surf perch action last week. Live sand shrimp or Berkley Gulp sand worms in camo colors have been working best. Perch fishing has been good up on the beaches in Coos Bay. Anglers are also catching pinkfin and striped perch along the Coos Bay south jetty. Boaters are catching rockfish inside the bay near the No. 7 buoy and the train trestle bridge
But while pundits have occasionally contorted themselves into logical pretzels to explain away Ford’s casual racism and misogyny — “He was just drunk!” “He always fights for the little guy!” — none has ever been able to explain away his deliberate and calculated anti-LGBT statements and actions.
Ford never hid anti-LGBT animus. From his earliest days on council, when he opposed funding small grants to diversity and AIDS-prevention campaigns, he made it explicit that his opposition stemmed from disgust with LGBT people, not from a desire to protect the public purse.Superman grany przez Cavilla to ten sam poziom, co w Człowieku ze Stali - moim zdaniem Cavill bardzo się stara, żeby jak najciekawiej zagrać Supermana, ale to i tak jedna z najnudniejszych postaci w całym komiksowym uniwersum, więc niektóre wysiłki pozostają niezauważone. Moim zdaniem to wina postaci i fani muszą się do tego przyzwyczaić.
Trzecią postacią, która ma szanse zaprezentować nam się trochę dłużej na ekranie jest oczywiście “ten zły”, czyli Lex Luthor, który grany przez Eisenberga kojarzył się raczej z o wiele bardziej szalonym Zuckerbergiem z The Social Network, niż komiksowym czarnym charakterem. Być może się czepiam, ale gdyby Luthor się w tym filmie nie przedstawił, nie miałbym pojęcia kim właściwie jest ten rudy gość, który z jakiegoś powodu postanowił być bardzo złośliwy.
he astonishments of the quasi-Biblical clashes and catastrophes in the director Zack Snyder’s “Man of Steel” left me impatient to see his “Batman v Superman: Dawn of Justice.” The earlier film conveyed an awed and even terrified sense of the colossal, a delight in the cinematic ability to realize wrenching destruction and, at the same time, to shiver at the very imagination of it. Snyder turned the superhero universe around on itself, constructing backstories and out-there stories of an apocalyptic force; it was silly but potent, shallow but thrilling. Perhaps Snyder’s new film is the victim of great (or any) expectations, but “Batman v Superman: Dawn of Justice” remains literally Earth-bound, and this fair planet is where Snyder bumps up against the limits of his vision.
Where “Man of Steel” opens big, with an intergalactic origin story that has the heightened tone of pseudo-scripture, the first big set piece in “Batman v Superman” is a catastrophe from home, a virtual replay of the 9/11 attack on the World Trade Center, with Bruce Wayne (Ben Affleck) looking on with horror and hatred as the tower of Wayne Industries collapses (vertically) into a blinding gust of light-gray powder—as a result of the battle waged by Superman (Henry Cavill) against the Kryptonian usurper General Zod.
But while pundits have occasionally contorted themselves into logical pretzels to explain away Ford’s casual racism and misogyny — “He was just drunk!” “He always fights for the little guy!” — none has ever been able to explain away his deliberate and calculated anti-LGBT statements and actions.
Ford never hid anti-LGBT animus. From his earliest days on council, when he opposed funding small grants to diversity and AIDS-prevention campaigns, he made it explicit that his opposition stemmed from disgust with LGBT people, not from a desire to protect the public purse.Superman grany przez Cavilla to ten sam poziom, co w Człowieku ze Stali - moim zdaniem Cavill bardzo się stara, żeby jak najciekawiej zagrać Supermana, ale to i tak jedna z najnudniejszych postaci w całym komiksowym uniwersum, więc niektóre wysiłki pozostają niezauważone. Moim zdaniem to wina postaci i fani muszą się do tego przyzwyczaić.
Trzecią postacią, która ma szanse zaprezentować nam się trochę dłużej na ekranie jest oczywiście “ten zły”, czyli Lex Luthor, który grany przez Eisenberga kojarzył się raczej z o wiele bardziej szalonym Zuckerbergiem z The Social Network, niż komiksowym czarnym charakterem. Być może się czepiam, ale gdyby Luthor się w tym filmie nie przedstawił, nie miałbym pojęcia kim właściwie jest ten rudy gość, który z jakiegoś powodu postanowił być bardzo złośliwy.
he astonishments of the quasi-Biblical clashes and catastrophes in the director Zack Snyder’s “Man of Steel” left me impatient to see his “Batman v Superman: Dawn of Justice.” The earlier film conveyed an awed and even terrified sense of the colossal, a delight in the cinematic ability to realize wrenching destruction and, at the same time, to shiver at the very imagination of it. Snyder turned the superhero universe around on itself, constructing backstories and out-there stories of an apocalyptic force; it was silly but potent, shallow but thrilling. Perhaps Snyder’s new film is the victim of great (or any) expectations, but “Batman v Superman: Dawn of Justice” remains literally Earth-bound, and this fair planet is where Snyder bumps up against the limits of his vision.
Where “Man of Steel” opens big, with an intergalactic origin story that has the heightened tone of pseudo-scripture, the first big set piece in “Batman v Superman” is a catastrophe from home, a virtual replay of the 9/11 attack on the World Trade Center, with Bruce Wayne (Ben Affleck) looking on with horror and hatred as the tower of Wayne Industries collapses (vertically) into a blinding gust of light-gray powder—as a result of the battle waged by Superman (Henry Cavill) against the Kryptonian usurper General Zod.
That start gives off a strange whiff of competition with—or emulation of—Marvel’s irrepressibly successful “Avengers” films, the first of which, in particular, is an unabashed post-9/11 allegory. (The connection is surprisingly direct. One of the climactic moments of “Batman v Superman”—a leap from the ground that vaults through the atmosphere and into outer space—is a virtual duplication, both dramatically and visually, of a similar climactic feat in “The Avengers.”) In Snyder’s new film, Superman appears, from the start, as a hopeless naïf, a battler for good who doesn’t admit to his own capacity to do incidental evil, a blinkered warrior who deploys his nearly infinite powers according to his unquestioned moral intuition rather than to the prudent calculation of results.
O Wonder Woman, która zgodnie z obietnicami zadebiutowała w tym filmie mogę w sumie napisać tylko tyle, że… do tej roli wybrano świetną aktorkę. Przynajmniej z wyglądu, bo po tych strzępkach dialogów, które pojawiają sie na ekranie z jej udziałem ciężko się zorientować kim właściwie jest ta pani, która w pewnym momencie pojawia się z tarczą i mieczem u boku Supermana i Batmana.
http://www.chatakatka.sk/mega-hqtvdownload-batman-v-superman-dawn-of-justice-full-movie-hdq/
http://www.chatakatka.sk/mega-hqtvdownload-batman-v-superman-dawn-of-justice-full-movie-hdq/
Introduction (Grammar in Your Pocket Book 1) (English Edition) の一節。
it helps to learn how the engine works,
the effect of moving the wheel on how the car moves,
and ways to safely handle a 2,000-pound mass of steel (sometimes as powerful as a pound of TNT).
This is not a reasonable task for children.
Similarly, learning the power of words and how to control them will get you the grownup through many a traffic jam (literally) and into safe,
comfortable traveling (literally).
Not for children.
論点は、最後の「Not for children.」の意味。
「日本人なら必ず誤訳する英文」内、3章「省略」で取り上げられてるテーマ。
最もありがちな間違いは、Notが直後の「for children」にかかっていると解釈して、「子供向けではない」と読むこと。
省略される前の文章を理解するための布石、伏線は、ちょっと前にある
This is not a reasonable task for children. (これは子供にとって容易なことではない。)
っていう文。
つまり、
This is NOT a reasonable task FOR CHILDREN.
っていう抜き出しの結果、
Not for children.になってるってこと。
結論:大丈夫。
MvK2010
I'm going to copy paste a full blog post of a research scientist at MIT here, who explains the situation at Fukushima much better than anyone else has, his message: no worries.
This post is by Dr Josef Oehmen, a research scientist at MIT, in Boston.
He is a PhD Scientist, whose father has extensive experience in Germany’s nuclear industry. I asked him to write this information to my family in Australia, who were being made sick with worry by the media reports coming from Japan. I am republishing it with his permission.
It is a few hours old, so if any information is out of date, blame me for the delay in getting it published.
This is his text in full and unedited. It is very long, so get comfy.
I am writing this text (Mar 12) to give you some peace of mind regarding some of the troubles in Japan, that is the safety of Japan’s nuclear reactors. Up front, the situation is serious, but under control. And this text is long! But you will know more about nuclear power plants after reading it than all journalists on this planet put together.
There was and will *not* be any significant release of radioactivity.
By “significant” I mean a level of radiation of more than what you would receive on – say – a long distance flight, or drinking a glass of beer that comes from certain areas with high levels of natural background radiation.
I have been reading every news release on the incident since the earthquake. There has not been one single (!) report that was accurate and free of errors (and part of that problem is also a weakness in the Japanese crisis communication). By “not free of errors” I do not refer to tendentious anti-nuclear journalism – that is quite normal these days. By “not free of errors” I mean blatant errors regarding physics and natural law, as well as gross misinterpretation of facts, due to an obvious lack of fundamental and basic understanding of the way nuclear reactors are build and operated. I have read a 3 page report on CNN where every single paragraph contained an error.
We will have to cover some fundamentals, before we get into what is going on.
Construction of the Fukushima nuclear power plants
The plants at Fukushima are so called Boiling Water Reactors, or BWR for short. Boiling Water Reactors are similar to a pressure cooker. The nuclear fuel heats water, the water boils and creates steam, the steam then drives turbines that create the electricity, and the steam is then cooled and condensed back to water, and the water send back to be heated by the nuclear fuel. The pressure cooker operates at about 250 °C.
The nuclear fuel is uranium oxide. Uranium oxide is a ceramic with a very high melting point of about 3000 °C. The fuel is manufactured in pellets (think little cylinders the size of Lego bricks). Those pieces are then put into a long tube made of Zircaloy with a melting point of 2200 °C, and sealed tight. The assembly is called a fuel rod. These fuel rods are then put together to form larger packages, and a number of these packages are then put into the reactor. All these packages together are referred to as “the core”.
The Zircaloy casing is the first containment. It separates the radioactive fuel from the rest of the world.
The core is then placed in the “pressure vessels”. That is the pressure cooker we talked about before. The pressure vessels is the second containment. This is one sturdy piece of a pot, designed to safely contain the core for temperatures several hundred °C. That covers the scenarios where cooling can be restored at some point.
The entire “hardware” of the nuclear reactor – the pressure vessel and all pipes, pumps, coolant (water) reserves, are then encased in the third containment. The third containment is a hermetically (air tight) sealed, very thick bubble of the strongest steel. The third containment is designed, built and tested for one single purpose: To contain, indefinitely, a complete core meltdown. For that purpose, a large and thick concrete basin is cast under the pressure vessel (the second containment), which is filled with graphite, all inside the third containment. This is the so-called “core catcher”. If the core melts and the pressure vessel bursts (and eventually melts), it will catch the molten fuel and everything else. It is built in such a way that the nuclear fuel will be spread out, so it can cool down.
This third containment is then surrounded by the reactor building. The reactor building is an outer shell that is supposed to keep the weather out, but nothing in. (this is the part that was damaged in the explosion, but more to that later).
Fundamentals of nuclear reactions
The uranium fuel generates heat by nuclear fission. Big uranium atoms are split into smaller atoms. That generates heat plus neutrons (one of the particles that forms an atom). When the neutron hits another uranium atom, that splits, generating more neutrons and so on. That is called the nuclear chain reaction.
Now, just packing a lot of fuel rods next to each other would quickly lead to overheating and after about 45 minutes to a melting of the fuel rods. It is worth mentioning at this point that the nuclear fuel in a reactor can *never* cause a nuclear explosion the type of a nuclear bomb. Building a nuclear bomb is actually quite difficult (ask Iran). In Chernobyl, the explosion was caused by excessive pressure buildup, hydrogen explosion and rupture of all containments, propelling molten core material into the environment (a “dirty bomb”). Why that did not and will not happen in Japan, further below.
In order to control the nuclear chain reaction, the reactor operators use so-called “moderator rods”. The moderator rods absorb the neutrons and kill the chain reaction instantaneously. A nuclear reactor is built in such a way, that when operating normally, you take out all the moderator rods. The coolant water then takes away the heat (and converts it into steam and electricity) at the same rate as the core produces it. And you have a lot of leeway around the standard operating point of 250°C.
The challenge is that after inserting the rods and stopping the chain reaction, the core still keeps producing heat. The uranium “stopped” the chain reaction. But a number of intermediate radioactive elements are created by the uranium during its fission process, most notably Cesium and Iodine isotopes, i.e. radioactive versions of these elements that will eventually split up into smaller atoms and not be radioactive anymore. Those elements keep decaying and producing heat. Because they are not regenerated any longer from the uranium (the uranium stopped decaying after the moderator rods were put in), they get less and less, and so the core cools down over a matter of days, until those intermediate radioactive elements are used up.
This residual heat is causing the headaches right now.
So the first “type” of radioactive material is the uranium in the fuel rods, plus the intermediate radioactive elements that the uranium splits into, also inside the fuel rod (Cesium and Iodine).
There is a second type of radioactive material created, outside the fuel rods. The big main difference up front: Those radioactive materials have a very short half-life, that means that they decay very fast and split into non-radioactive materials. By fast I mean seconds. So if these radioactive materials are released into the environment, yes, radioactivity was released, but no, it is not dangerous, at all. Why? By the time you spelled “R-A-D-I-O-N-U-C-L-I-D-E”, they will be harmless, because they will have split up into non radioactive elements. Those radioactive elements are N-16, the radioactive isotope (or version) of nitrogen (air). The others are noble gases such as Xenon. But where do they come from? When the uranium splits, it generates a neutron (see above). Most of these neutrons will hit other uranium atoms and keep the nuclear chain reaction going. But some will leave the fuel rod and hit the water molecules, or the air that is in the water. Then, a non-radioactive element can “capture” the neutron. It becomes radioactive. As described above, it will quickly (seconds) get rid again of the neutron to return to its former beautiful self.
This second “type” of radiation is very important when we talk about the radioactivity being released into the environment later on.
I will try to summarize the main facts. The earthquake that hit Japan was 7 times more powerful than the worst earthquake the nuclear power plant was built for (the Richter scale works logarithmically; the difference between the 8.2 that the plants were built for and the 8.9 that happened is 7 times, not 0.7). So the first hooray for Japanese engineering, everything held up.
When the earthquake hit with 8.9, the nuclear reactors all went into automatic shutdown. Within seconds after the earthquake started, the moderator rods had been inserted into the core and nuclear chain reaction of the uranium stopped. Now, the cooling system has to carry away the residual heat. The residual heat load is about 3% of the heat load under normal operating conditions.
The earthquake destroyed the external power supply of the nuclear reactor. That is one of the most serious accidents for a nuclear power plant, and accordingly, a “plant black out” receives a lot of attention when designing backup systems. The power is needed to keep the coolant pumps working. Since the power plant had been shut down, it cannot produce any electricity by itself any more.
Things were going well for an hour. One set of multiple sets of emergency Diesel power generators kicked in and provided the electricity that was needed. Then the Tsunami came, much bigger than people had expected when building the power plant (see above, factor 7). The tsunami took out all multiple sets of backup Diesel generators.
When designing a nuclear power plant, engineers follow a philosophy called “Defense of Depth”. That means that you first build everything to withstand the worst catastrophe you can imagine, and then design the plant in such a way that it can still handle one system failure (that you thought could never happen) after the other. A tsunami taking out all backup power in one swift strike is such a scenario. The last line of defense is putting everything into the third containment (see above), that will keep everything, whatever the mess, moderator rods in our out, core molten or not, inside the reactor.
http://anond.hatelabo.jp/20110314030613
へ続く
Steel is my body,and fire is my blood.
I have created over a thousand blades.
Unknown to Death.
Nor known to Life.
Have withstood pain to create many weapons.
waiting for one's arrival
I have no regrets.This is the only path.
So as I pray,unlimited blade works.
See the blood of our friends that sticking to us
我らに忠実であった戦友の流した血を見よ
Rising out of the sea of sorrow
後悔の海から太陽が昇る
There's nothing to loose anymore
これ以上失うものなど何もない
We will be fighting till we get hold of our victory
我らが勝利を得る時まで闘い続けよう
Oh my sword leads us to the castle where the evil lies
ああ、私の剣が我々を悪魔の横たわる城へ導く
The sacrifice was big, but we became stronger
犠牲は多大であったが、我らはより一層強固になった
We get hold of glory again
再び栄光を得るだろう
On the road, we will defeat our enemy even if we'll become the dust
道のりで露と消えない限りは敵を打ち負かそう
The armors protect our body and departed souls protect our mind
鎧が身体を守り、死者が心を守る
Now the time, we'll break through the gate of steel
今このとき、鉄の扉を破るのだ
Into perdition
霊魂になろうとも
Struggle for freedom, it's our rule
自由のために闘争しよう、それが運命だ
See the fire of steel that calling on us
我らを呼ぶ鉄の焔を見よ
Oh, my sword blaze up
ああ、私の剣が燃え立っている
We are children of this battlefield
我らは戦場の子なり
The sacrifice was big, but we became stronger
犠牲は多大だったが、我らはより一層強固になった
We get hold of glory again
再び栄光を得るだろう
On the road, we will defeat our enemy even if we'll become the dust
道のりで露と消えない限りは敵を打ち負かそう
The armors protect our body and departed souls protect our mind
鎧が身体を守り、霊魂が心を守る
Now the time, we'll break through the gate of steel
今このとき、鉄の扉を破るのだ
Into perdition
霊魂になろうとも
Struggle for freedom, it's our rule
自由のために闘争しよう、それが運命だ
No one can stop the force that shatters the dark
闇を閉じる力を誰も止められはしない
Rolling like thunder and run through like lightning
雷のように動き、光のように走れ
The sacrifice was big, but we became stronger
犠牲は多大だったが、我らはより一層強固になった
We get hold of glory again
再び栄光を得るだろう
On the road, we will defeat our enemy even if we'll become the dust
道のりで露と消えない限りは敵を打ち負かそう
The armors protect our body and departed souls protect our mind
鎧が身体を守り、霊魂が心を守る
Now the time, we'll break through the gate of steel
今このとき、鉄の扉を破るのだ
Into perdition
霊魂になろうとも
Struggle for freedom, it's our rule
自由のために闘争しよう、それが運命だから