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英語 高校生

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4 20 科学 420 words Chapter 1 The recipe for making any creature is written in its DNA. So last year, when 1-1 geneticists* published the near-complete DNA sequence of the long-extinct woolly mammoth, there was much speculation about whether we could bring this giant creature back to life. 5 東京理科大学 Creating a living, breathing creature from a genome* sequence that exists only in a computer's memory is not possible right now. But someone someday is sure to try it, predicts Stephan Schuster, a molecular biologist at Pennsylvania State University and a driving force behind the mammoth genome project. So besides the mammoth, what other extinct beasts might we bring back to life? Well, 12 10 it is only going to be possible with creatures for which we can recover a complete genome Without one, there is no chance. And usually when a creature dies, the (1) - DNA in any flesh left untouched is soon destroyed as it is attacked by sunshine and bacteria. sequence. There are, however, some circumstances in which DNA can be preserved. If your 15 specimen froze to death in an icy wasteland such as Siberia, or died in a dark cave or a really dry region, for instance, then the probability of finding some intact stretches of DNA is much higher. Even in ideal conditions, though, no genetic information is likely to survive more than a million years. - so dinosaurs are out and only much younger remains are likely to yield good-quality DNA. "It's really only worth studying specimens that are less than 100,000 years old," says Schuster. The genomes of several extinct species besides the mammoth are already being sequenced, but turning these into living creatures will not be easy. "It's hard to say that something will never ever be possible," says Svante Pääbo of the Max Planck Institute 25 for Evolutionary Anthropology in Germany, "but it would require technologies so far removed from what we currently have that I cannot imagine how it would be done." But then (3) 50 years ago, who would have believed we would now be able to read the instructions for making humans, fix inherited diseases, clone mammals and be close to creating artificial life? Assuming that we will develop the necessary technology, we have 30 selected ten extinct creatures that might one day be resurrected. Our choice is based not just on practicality, but also on each animal's "charisma" - just how exciting the prospect of resurrecting these animals is. 1-3

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物理 高校生

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(1) 球体が机上を離れす いて表せ。 (2)(1)における球体の等速円運動の角速度wをm, k, g, L, 0のうち必要なものを用いて表せ。 (3) 球体の等速円運動の角速度がある限界値 um を超えていると、球体は机上を離れる。限界値をm kg Lのうち必要なものを用いて表せ 56 (4) フックの法則にしたがうばねの伸びの限度をxとする。この限度内に球体が机上を離れるために、ばね定 数kが満たすべき条件をm,g, L, xm のうち必要なものを用いて表せ。 問題2 次の文を読んで,以下の問いに答えよ。 ただし,解答は記号 0, L,m, d.gのうち適するものを用いて表せ。 〔I〕 右図のように水平面と角0 〔rad] をなす滑らかな斜面の上に, ばね AB が置 かれている。一端A は斜面に固定され, 他端 B は斜面に沿って自由に動くこと ができる。 B端の上方L [m]の場所から質量m[kg]の物体 C を初速度 0m/s で すべらせた。 物体CはB端に触れた後, B端と離れずに運動しつづける。 そし て,物体CはB端に触れた場所からd[m〕 だけ進んだところで運動の向きを変え,それ以後は単振動を行っ た。ここで,重力加速度の大きさをg [m/s2] とし, 空気の抵抗およびばねの質量は無視できるものとする。 (1) B端に触れる直前の物体Cの速度 uc [m/s] を求めよ。 Amm 0 (2) ばね定数k [N/m〕 を求めよ。 (3) 単振動の周期 T [s] を求めよ。 〔Ⅱ〕 物体Cとばね AB を右上図に示した状態にもどした後、物体Cに斜面に沿った下向きの初速度 v[m/s] を与えてすべらせた。 物体CはB端に触れた後, B端と離れずに運動しつづける。 そして, 物体CはB端に 触れた場所から2d [m〕 だけ進んだところで運動の向きを変え,それ以後は単振動を行った。 ただし, 解答に ばね定数kの記号が含まれてもよい。 (4) 物体Cに与えられた初速度v[m/s] を求めよ。 (5) 単振動を行っているときの物体Cの速度の最大値 Vmax [m/s ] を求めよ。 L

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