Mitsubishi Heavy Industries, Ltd. and the Japan Aerospace Exploration Agency (JAXA) 22 days, H2A rocket No. 29 equipped with the Canadian communications and broadcasting satellite
3 o'clock 23 minutes and 24 pm, it was announced that it would launch from the Tanegashima Space Center (Kagoshima Prefecture). Domestic rocket hit the commercial satellite
raise of it the first time, to use a long time flight can be improved type of H2A. Toward comeback in the commercial launch market that is lagging behind
It becomes crucial stage.
So far of H2A separates the geostationary satellite after about 30 minutes of launch, the satellite has reached the geostationary orbit altitude 36,000 km own
It had. Improved about 4 hours flight by increasing the two-stage engine injected three times contrast. Satellite is carried to near the geostationary orbit,
It is possible to enter the track while suppressing fuel consumption, there is an advantage that operation period is extended several years.
Accounting for Europe and Russia is a large market share in the commercial launch market that carries the customer of satellite in orbit, Japan has been struggling. Improved performance
In introduction of the cause was improved H2A, is aimed to strengthen the international competitiveness.
Mitsubishi Heavy Industries to perform the orders and launch services has been launched in 2012 a satellite of the South Korean government, private satellite of commercial purposes for the first time.
This time is also a large satellite of industry leaders, it is an opportunity to increase its presence in the global market if it succeeds. The company's Hirashima Range team leader
It was said, "was a success to ensure it faces in the normal heart, I want to connect to business expansion."
It is quite a long flight from the four and a half hours. Is it possible to put a satellite in geostationary orbit not much of a burden on the satellite, but flying safe?
It is really going to be a launch of a crucial moment. I pray sincerely success.
三菱重工業と宇宙航空研究開発機構(JAXA)は22日、カナダの通信放送衛星を搭載したH2Aロケット29号機を24日午後3時23分、種子島宇宙センター(鹿児島県)から打ち上げると発表した。国産ロケットが商業衛星を打ち上げるのは初めてで、長時間飛行できる改良型のH2Aを使う。後れを取っている商業打ち上げ市場での巻き返しに向け正念場となる。
これまでのH2Aは打ち上げの約30分後に静止衛星を分離し、衛星が自力で高度3万6千キロの静止軌道に到達していた。これに対し改良型は2段エンジンの噴射を3回に増やして約4時間半飛行。衛星は静止軌道の近くまで運ばれ、燃料消費を抑えて軌道に入ることができ、運用期間が数年延びる利点がある。
顧客の衛星を軌道に運ぶ商業打ち上げ市場では欧州とロシアが大きなシェアを占め、日本は苦戦してきた。性能を向上させた改良型H2Aの投入で、国際競争力を強化する狙いがある。
受注と打ち上げ業務を行う三菱重工業は韓国政府の衛星を平成24年に打ち上げたが、商業目的の民間衛星は初めて。
今回は業界大手の大型衛星でもあり、成功すれば世界市場で存在感を高める好機となる。同社の平嶋射場チーム長は「平常心で臨み確実に成功させ、事業拡大につなげたい」と話した。
4時間半とはかなりの長時間飛行ですね。衛星には負担がかかりませんが安全に飛行して衛星を静止軌道に投入できるか?本当に正念場の発射になりそうですね。成功を心から祈ります。
Daily events on the vertical axis, I want to depict a variety of patterns on the horizontal axis through which the world felt. 日々の出来事を縦軸に、それを通じて感じた世界を横軸に様々な模様を描き出していきたいと思います。
2015年11月23日月曜日
2015年11月21日土曜日
"wedge front"
That the more people who feel strongly the happiness specific portion of the right brain is large, Kyoto University Graduate School of Medicine Sato Associate Professor et al discovered.
The first time was to elucidate the correlation between the structure of euphoria and brain. It announced the 20th in the British science journal.
It is to be in psychology can be numerically measured the strength of the feeling of happiness in the question paper. Sato Associate Professor et al., Question the results and
We examined the correlation by the volume of each part of the brain as measured with magnetic resonance imaging (MRI).
Conducted in men and women 51 people 10-30 generations. Use the question paper, I was asked about the sense of well-being. And to quantify the answer to the question,
As a result of comparison with the volume of each part of each person's brain, the more people a sense of well-being it is strong on the inside of the right brain "wedge front"
Is it was found to be greater.
It also asked about the meaning of the pleasant-unpleasant and life, and to quantify the answer, as well as the wedge front
It was correlation of volume with. The knowledge of psychology that pleasure-displeasure and who feel the meaning of life there is a sense of well-being and involvement
It was backed by brain science.
Wedge front is on the left and right cerebral hemispheres. The reason was greater only the right side of the volume, and the theory that the right brain is responsible for emotions
that there is a possibility that relevant. Sato Associate Professor meaning of "happiness since the ancient philosopher, has been considered.
Speak and "was able to elucidate the one end of the happiness in brain science perspective.
It is how I can be increased "wedge front" the After you?
幸福を強く感じる人ほど右脳の特定部位が大きいことを、京都大医学研究科の佐藤准教授らが突き止めた。
幸福感と脳の構造の相関を解明したのは初めて。英科学誌に20日発表した。
心理学では幸福感の強さを質問用紙で数値的に計測できるとされる。佐藤准教授らは、質問結果と
磁気共鳴画像装置(MRI)で測定した脳の各部位の体積で相関を調べた。
10~30代の男女51人で実施。質問用紙を使い、幸福感について尋ねた。質問への回答を数値化し、各人の脳の各部位の体積と比べた結果、幸福感が強い人ほど右脳の内側にある「楔前部」
が大きいと分かった。
また、快・不快と人生の意味についても質問し、回答を数値化すると、同様に楔前部
の体積と相関していた。快・不快と人生の意味の感じ方は幸福感と関わりがあるという心理学の知見を
脳科学で裏付けた。
楔前部は左右の大脳半球にある。右側の体積だけ大きかった理由は、右脳が感情を担うとする説と
関連する可能性があるという。佐藤准教授は「幸せの意味は古代の哲学者以来、考えられてきた。
脳科学的な視点で幸福の一端を解明できた」と話す。
どのようにしたら「楔前部」を大きくすることができるんですかね?
The first time was to elucidate the correlation between the structure of euphoria and brain. It announced the 20th in the British science journal.
It is to be in psychology can be numerically measured the strength of the feeling of happiness in the question paper. Sato Associate Professor et al., Question the results and
We examined the correlation by the volume of each part of the brain as measured with magnetic resonance imaging (MRI).
Conducted in men and women 51 people 10-30 generations. Use the question paper, I was asked about the sense of well-being. And to quantify the answer to the question,
As a result of comparison with the volume of each part of each person's brain, the more people a sense of well-being it is strong on the inside of the right brain "wedge front"
Is it was found to be greater.
It also asked about the meaning of the pleasant-unpleasant and life, and to quantify the answer, as well as the wedge front
It was correlation of volume with. The knowledge of psychology that pleasure-displeasure and who feel the meaning of life there is a sense of well-being and involvement
It was backed by brain science.
Wedge front is on the left and right cerebral hemispheres. The reason was greater only the right side of the volume, and the theory that the right brain is responsible for emotions
that there is a possibility that relevant. Sato Associate Professor meaning of "happiness since the ancient philosopher, has been considered.
Speak and "was able to elucidate the one end of the happiness in brain science perspective.
It is how I can be increased "wedge front" the After you?
幸福を強く感じる人ほど右脳の特定部位が大きいことを、京都大医学研究科の佐藤准教授らが突き止めた。
幸福感と脳の構造の相関を解明したのは初めて。英科学誌に20日発表した。
心理学では幸福感の強さを質問用紙で数値的に計測できるとされる。佐藤准教授らは、質問結果と
磁気共鳴画像装置(MRI)で測定した脳の各部位の体積で相関を調べた。
10~30代の男女51人で実施。質問用紙を使い、幸福感について尋ねた。質問への回答を数値化し、各人の脳の各部位の体積と比べた結果、幸福感が強い人ほど右脳の内側にある「楔前部」
が大きいと分かった。
また、快・不快と人生の意味についても質問し、回答を数値化すると、同様に楔前部
の体積と相関していた。快・不快と人生の意味の感じ方は幸福感と関わりがあるという心理学の知見を
脳科学で裏付けた。
楔前部は左右の大脳半球にある。右側の体積だけ大きかった理由は、右脳が感情を担うとする説と
関連する可能性があるという。佐藤准教授は「幸せの意味は古代の哲学者以来、考えられてきた。
脳科学的な視点で幸福の一端を解明できた」と話す。
どのようにしたら「楔前部」を大きくすることができるんですかね?
2015年11月15日日曜日
Terminator I guess I'm going to become a reality.
Tokyo large pass the aim artificial intelligence (AI), "Tou Robo-kun" is, in the practice test of the National Center Test for University Admissions, significantly higher than the average score
That it has achieved results, the National Institute of Informatics, such as 14 days was evident in the results announcement meeting held in Tokyo.
In about 80% and Kokkoritsudai 33 schools in private universities, it became A judgment of "pass the possibility of 80% or more."
Challenge of east Robo kun third year. Benesse Corporation of communication education major is created, and solves the actually took place in June this year if
It was compared to the students of grades.
As a result, a total of 511 points in the five subjects 8 subjects (a total of 950-point scale), was the good results that the deviation value 57-8. Deviation value of the last year of 5 subjects is
47, 3, 45, 1 two years ago, it has grown steadily year by year. More than the average score in four subjects of the eight subjects, in particular, mathematics 1A, mathematics 2B,
In the three subjects of world history B, deviation value exceeds 60.
It is a feeling came up here. I wonder if that man should be I'm going to become the arts and disciplines to new ideas and creativity. It
I wonder if you'll do come era to surpass the population intelligence also. Terminator I guess I'm going to become a reality.
東京大合格を目指す人工知能(AI)「東ロボくん」が、大学入試センター試験の模擬試験で、平均点を大きく上回る
成績を達成したと、国立情報学研究所などが14日、都内で開かれた成果発表会で明らかにした。
私立大の約8割と国公立大33校で、「合格可能性が80%以上」のA判定になった。
東ロボくんの挑戦は3年目。通信教育大手のベネッセコーポレーションが作成し、実際に今年6月に行われた模試を解き、
受験生の成績と比較した。
その結果、5教科8科目(計950点満点)で計511点、偏差値57・8という好成績だった。昨年の5教科の偏差値は
47・3、一昨年は45・1で、年々着実に伸びている。8科目のうち4科目で平均点を超え、特に、数学1A、数学2B、
世界史Bの3科目では、偏差値が60を超えた。
ここまで来たって感じですね。人間がすべきことは芸術分野や新たな発想や創造する分野になっていくんですかね。それ
をも人口知能が凌駕する時代が来るんでしょうかね。ターミネータが現実になっていくんですかね。
That it has achieved results, the National Institute of Informatics, such as 14 days was evident in the results announcement meeting held in Tokyo.
In about 80% and Kokkoritsudai 33 schools in private universities, it became A judgment of "pass the possibility of 80% or more."
Challenge of east Robo kun third year. Benesse Corporation of communication education major is created, and solves the actually took place in June this year if
It was compared to the students of grades.
As a result, a total of 511 points in the five subjects 8 subjects (a total of 950-point scale), was the good results that the deviation value 57-8. Deviation value of the last year of 5 subjects is
47, 3, 45, 1 two years ago, it has grown steadily year by year. More than the average score in four subjects of the eight subjects, in particular, mathematics 1A, mathematics 2B,
In the three subjects of world history B, deviation value exceeds 60.
It is a feeling came up here. I wonder if that man should be I'm going to become the arts and disciplines to new ideas and creativity. It
I wonder if you'll do come era to surpass the population intelligence also. Terminator I guess I'm going to become a reality.
東京大合格を目指す人工知能(AI)「東ロボくん」が、大学入試センター試験の模擬試験で、平均点を大きく上回る
成績を達成したと、国立情報学研究所などが14日、都内で開かれた成果発表会で明らかにした。
私立大の約8割と国公立大33校で、「合格可能性が80%以上」のA判定になった。
東ロボくんの挑戦は3年目。通信教育大手のベネッセコーポレーションが作成し、実際に今年6月に行われた模試を解き、
受験生の成績と比較した。
その結果、5教科8科目(計950点満点)で計511点、偏差値57・8という好成績だった。昨年の5教科の偏差値は
47・3、一昨年は45・1で、年々着実に伸びている。8科目のうち4科目で平均点を超え、特に、数学1A、数学2B、
世界史Bの3科目では、偏差値が60を超えた。
ここまで来たって感じですね。人間がすべきことは芸術分野や新たな発想や創造する分野になっていくんですかね。それ
をも人口知能が凌駕する時代が来るんでしょうかね。ターミネータが現実になっていくんですかね。
2015年11月8日日曜日
Development of diameter 0.6 mm of artificial blood vessel.
National Cardiovascular Research Center two days announced that it has developed a most small the difference is diameter 0.6 mm of artificial blood vessel in the world.
When implanted in the body of the rat blood vessels play, and success to be alive six months. Future, to such re-adhesion of the cut finger
Application is I can be expected.
Commercially available artificial blood vessel is usually made of a polyester, that minimum diameter of 3 mm. However, the artifact tube is thin
The more blood there is a problem that tends to lump.
The Center Research Institute of Zhongshan-Medical Engineering Materials Research Office et al., Creating a collagen around the skin cells of foreign matter
It is noted that the cover, it developed a technology to make blood vessels.
Embedding stainless steel and the rod-shaped mold made from silicone skin of rats, the external is covered with collagen,
If you remove the mold could tube of collagen.
国立循環器病研究センターは2日、世界で最も小さいとされる直径0・6ミリの人工血管を開発したと発表した。
ラットの体内に移植すると血管が再生し、6か月間生存させることに成功。今後、指の切断の再接着などへの応用が期待できる。
市販の人工血管は通常ポリエステルなどで作られ、最小で直径3ミリという。しかし、人工物では管が細くなるほど血液が固まりやすくなるという課題があった。
同センター研究所の中山・医工学材料研究室長らは、皮膚細胞が異物の周囲にコラーゲンを作り出して覆うことに注目し、血管を作る技術を開発。
ステンレスとシリコーンで作った棒状の鋳型をラットの皮膚に埋め込むと、外部がコラーゲンで覆われ、鋳型を取り除くとコラーゲンの管ができた。
When implanted in the body of the rat blood vessels play, and success to be alive six months. Future, to such re-adhesion of the cut finger
Application is I can be expected.
Commercially available artificial blood vessel is usually made of a polyester, that minimum diameter of 3 mm. However, the artifact tube is thin
The more blood there is a problem that tends to lump.
The Center Research Institute of Zhongshan-Medical Engineering Materials Research Office et al., Creating a collagen around the skin cells of foreign matter
It is noted that the cover, it developed a technology to make blood vessels.
Embedding stainless steel and the rod-shaped mold made from silicone skin of rats, the external is covered with collagen,
If you remove the mold could tube of collagen.
国立循環器病研究センターは2日、世界で最も小さいとされる直径0・6ミリの人工血管を開発したと発表した。
ラットの体内に移植すると血管が再生し、6か月間生存させることに成功。今後、指の切断の再接着などへの応用が期待できる。
市販の人工血管は通常ポリエステルなどで作られ、最小で直径3ミリという。しかし、人工物では管が細くなるほど血液が固まりやすくなるという課題があった。
同センター研究所の中山・医工学材料研究室長らは、皮膚細胞が異物の周囲にコラーゲンを作り出して覆うことに注目し、血管を作る技術を開発。
ステンレスとシリコーンで作った棒状の鋳型をラットの皮膚に埋め込むと、外部がコラーゲンで覆われ、鋳型を取り除くとコラーゲンの管ができた。
2015年11月7日土曜日
KAGRA
A mystery which reaches from the universe aims to detection of "gravity wave" Tokyo large Institute for Cosmic Ray Research of observation facility "KAGRA" is
It was completed in the basement of Gifu Prefecture Hida Kamioka-cho.
When the gravity wave is a very heavy celestial body is moved violently, occurs distortion in space under the influence of gravity, it is like a wave
Phenomenon going transmitted far. Einstein but it predicted the presence in about 100 years ago on the basis of the theory of relativity,
Direct the observed examples are not.
Kagura is a structure connecting the length of three kilometers of tunnel in L-shaped, at the same time firing the laser in two directions from the center.
When the gravitational wave arrives to stretch distorted space in the tunnel, the time until the laser has come back is reflected in the mirror
We detect a slight difference from occurring. Vibration I was built in small underground 200 meters. The total construction cost is 15.5 billion yen.
Start the test observed during this fiscal year. If we are in full-scale observations in 2017 fiscal year through the additional work, and that captured the gravity wave within a year. If successful in the world's first observation, following the Super-Kamiokande that Kajita Takaaki Mr. award was decided the Nobel Prize in Physics has discovered the mass of the particle neutrino, the third Nobel Prize certainly at the facility group of Kamioka
It is with.
But Western also aims to observation in a similar facility, competition is fierce. Three generations tree, Associate Professor of the institute
Is all fired up as "I want to come realize humanity's first observation".
Observation of gravitational wave astronomical phenomena and that were not captured in the light or X-rays, help to elucidate the mysteries of the universe at the time of birth.
Kajita said of the Institute to oversee Kagura out the results, such as born a new research field from the land of "Kamioka
We want "and to put the expected. By all means, we want to expect the first observations humanity.
宇宙から届く謎の「重力波」の検出を目指す東京大宇宙線研究所の観測施設「KAGRA」が
岐阜県飛騨市神岡町の地下に完成した。
重力波は非常に重い天体が激しく動いたとき、重力の影響で空間にゆがみが生じ、それが波のように
遠くまで伝わっていく現象。アインシュタインが相対性理論に基づき約100年前に存在を予言したが、
直接観測した例はない。
かぐらは長さ3キロのトンネルをL字形につなげた構造で、中心部からレーザーを2方向に同時に発射。
重力波が届くとトンネル内の空間がゆがんで伸縮し、レーザーが鏡で反射して戻ってくるまでの時間に
わずかな差が生じるのを検出する。振動が少ない地下200メートルに建設した。総工費は155億円。
今年度中に試験観測を開始。追加工事を経て平成29年度に本格観測に入れば、1年以内に重力波を捉えられるという。世界初の観測に成功すれば、ノーベル物理学賞の受賞が決まった梶田隆章氏が素粒子ニュートリノの質量を発見したスーパーカミオカンデに続き、神岡の施設群で3つ目のノーベル賞が確実
とされる。
ただ欧米も類似の施設で観測を目指しており、競争は激しい。同研究所の三代木准教授は
「人類初の観測をぜひ実現したい」と意気込む。
重力波の観測は光やX線などでは捉えられなかった天文現象や、宇宙誕生時の謎の解明に役立つ。
かぐらを統括する同研究所長の梶田氏は「神岡の地から新たな研究分野が生まれるような成果が出て
ほしい」と期待を込める。 ぜひ、人類初の観測結果を期待したいですね。
It was completed in the basement of Gifu Prefecture Hida Kamioka-cho.
When the gravity wave is a very heavy celestial body is moved violently, occurs distortion in space under the influence of gravity, it is like a wave
Phenomenon going transmitted far. Einstein but it predicted the presence in about 100 years ago on the basis of the theory of relativity,
Direct the observed examples are not.
Kagura is a structure connecting the length of three kilometers of tunnel in L-shaped, at the same time firing the laser in two directions from the center.
When the gravitational wave arrives to stretch distorted space in the tunnel, the time until the laser has come back is reflected in the mirror
We detect a slight difference from occurring. Vibration I was built in small underground 200 meters. The total construction cost is 15.5 billion yen.
Start the test observed during this fiscal year. If we are in full-scale observations in 2017 fiscal year through the additional work, and that captured the gravity wave within a year. If successful in the world's first observation, following the Super-Kamiokande that Kajita Takaaki Mr. award was decided the Nobel Prize in Physics has discovered the mass of the particle neutrino, the third Nobel Prize certainly at the facility group of Kamioka
It is with.
But Western also aims to observation in a similar facility, competition is fierce. Three generations tree, Associate Professor of the institute
Is all fired up as "I want to come realize humanity's first observation".
Observation of gravitational wave astronomical phenomena and that were not captured in the light or X-rays, help to elucidate the mysteries of the universe at the time of birth.
Kajita said of the Institute to oversee Kagura out the results, such as born a new research field from the land of "Kamioka
We want "and to put the expected. By all means, we want to expect the first observations humanity.
宇宙から届く謎の「重力波」の検出を目指す東京大宇宙線研究所の観測施設「KAGRA」が
岐阜県飛騨市神岡町の地下に完成した。
重力波は非常に重い天体が激しく動いたとき、重力の影響で空間にゆがみが生じ、それが波のように
遠くまで伝わっていく現象。アインシュタインが相対性理論に基づき約100年前に存在を予言したが、
直接観測した例はない。
かぐらは長さ3キロのトンネルをL字形につなげた構造で、中心部からレーザーを2方向に同時に発射。
重力波が届くとトンネル内の空間がゆがんで伸縮し、レーザーが鏡で反射して戻ってくるまでの時間に
わずかな差が生じるのを検出する。振動が少ない地下200メートルに建設した。総工費は155億円。
今年度中に試験観測を開始。追加工事を経て平成29年度に本格観測に入れば、1年以内に重力波を捉えられるという。世界初の観測に成功すれば、ノーベル物理学賞の受賞が決まった梶田隆章氏が素粒子ニュートリノの質量を発見したスーパーカミオカンデに続き、神岡の施設群で3つ目のノーベル賞が確実
とされる。
ただ欧米も類似の施設で観測を目指しており、競争は激しい。同研究所の三代木准教授は
「人類初の観測をぜひ実現したい」と意気込む。
重力波の観測は光やX線などでは捉えられなかった天文現象や、宇宙誕生時の謎の解明に役立つ。
かぐらを統括する同研究所長の梶田氏は「神岡の地から新たな研究分野が生まれるような成果が出て
ほしい」と期待を込める。 ぜひ、人類初の観測結果を期待したいですね。
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