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英語 高校生

fについてです 解説が載っていなかったため質問しています、。 なぜ、③を選ぶことができるのでしょうか?

Long-s doctrin holds that we are protected from fungi not just by layered immune defenses but ( e ) we are mammals*, with core temperatures higher than fungi prefer. The cooler outer surfaces of our bodies are at risk of minor assaults-think of athlete's foot*, yeast infections, ringworm*-but in people with healthy immune systems, invasive* infections have been ( f ). That may have left us overconfident. "We have an enormous (g) spot," says Arturo Casadevall, a physician and molecular microbiologist at the Johns Hopkins Bloomberg School of Public Health. "Walk into the street and ask people what are they afraid of, and they'll tell you they're afraid of bacteria, they're afraid of viruses, but they don't fear dying of fungi." Ironically, it is our successes that made us vulnerable*. Fungi exploit damaged immune systems, but before the mid-20th century people with impaired immunity didn't live very long. Since then, medicine has gotten very good at keeping such people (h), even though their immune systems are compromised by illness or cancer treatment or age. It has also developed an array of therapies that deliberately suppress immunity, to keep transplant recipients healthy and treat autoimmune* disorders such as lupus* and rheumatoid arthritis*. ( i ) vast numbers of people are living now who are especially vulnerable to fungi. Not all of our vulnerability is the fault of medicine preserving life so successfully. Other ( j ) actions have opened more doors between the fungal world and our own. We clear land for crops and settlement and perturb* what were stable balances between fungi and their hosts. We carry goods and animals across the world, and fungi hitchhike on them. We drench crops in fungicides* and enhance the resistance of organisms residing nearby. (s) ELSE

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数学 高校生

演習15で、両辺に√nをかけた不等式について、n=kの時に両辺に√(k+1)を加えて証明しようと思いました。(今まで解いていた問題だとこのような解き方でしたので…) そうしたら3枚目の最後の式から0以上であることを言えないために、証明できませんでした。 みなさんはどの時点... 続きを読む

3 となるので,①は成り立つ。 1 1 +... + <2- 12 22 ne n 1 n=2のとき, 1 + 5 12 4 22 , 1 = 2- 2 2 n=k(k≧2) のとき, ①が成り立つとすると, 1 1 1 ・+・・・+ <2- 12 22 k2 k ①でn=k+1とした式 1/3+/12/2++//+(k+1)= 1 1 1 <2 3 k+1 を②から導けばよい. ここで,②③の左辺どうし,右辺どうしの差を不等号で結ぶと, (k+1)2 < (2-1+1)-(2-1) 4 ④が成り立つことが示せれば, ② + ④ から ③ を導くことができる.そこで, ④ を示すことを目標にする. そのためには, (④の右辺) (④の左辺) > 0 を示せ ばよい. = (2)-(2)-(1) (k+1)2-k(k+1)-k k(k+1)2 1 1 1 1 k k+1 (k+1)2 1 >O k(k+1)2 よって、 ①は数学的帰納法によって証明された. 注②の両辺に 1 (k+1)2 を加えると, 1 1 1 12 + +…+ + 22 k2 1 (k+1)2 1 <2- + k (k+1)2 1 1 これから 2 + <2- k (←④) を示せばよいとしても (k+1)2 k+1 よい。 15 演習題 ( 解答は p.78) ← ③の左辺は、②の左辺に 1 (k+1)2 を足したものなので ②と③の差に着目する. <a<bかつc <d ⇒ atc<b+d という不等式の性質を用いている。 1+√2+√3+√m 数列 {a} を am= で定める.このとき, すべての自然数nに n 2n 3 ついて、不等式 2/ <a が成り立つことを,数学的帰納法によって証明せよ。 帰納法の使いやすい形に (信州大・医一後) して証明する. 70

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