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化学 高校生

受験で覚えるべき周期表の族と語呂合わせあればそれも教えてください🙇🏻‍♂️

杉 元素 周期 1 2 3 5 6 7 8 水素 典型元素 1 1H 10 11 12 13 14 15 16 17 1.008 18 Hydrogen 非金属元素 単体は常温で固体 金ー 一元素名 |79AU. ー元素記号 ラム 日本発の元素 2015年12月31日, 日 本の理化学研究所の 森田浩介博士を中心 とした研究チームが合成に成功し 子量 ||た元素が 「113番元素」であると認 原子番号| められ,命名権が与えられた。そ ヘリウム リチウム ベリリウム 金属元素 単体は常温で液体 2He *197,0 2 sLi 4Be 4.000 Gold 6.941 Helium 元素名 (英語名) 9.012 典型元素 単体は常温で気体 Lithium Beryllium ホウ素 炭素 フッ素 ネオン sB 6C N 80 9F 10N. 2 ナトリウム マグネシウム 遷移元素 10.81 12,01 14.01 16.00 19.00 Fluorine 20.18 11N. 12M図 Boron 3 Nitrogen Carbon につくられたものである。 Orygen Neon 22.99 24.31 ホニウム Nh」という名称に決定し、 日本発アジア初の元素が周期表 に加わった(O巻末特集C~D)。 アルミニウム ケイ素 リン Sodium Magnesium 13A1 14Si 15P アルゴン 16S 17C1 18Ar 3 26.98 28,09 30.7 2.07 35.45 カリウム カルシウム スカンジウム チタン Aluminium Silicon バナジウム クロム Phosphorus Suifur Chlorine Argon 4 19K 20Ca 21SC 22Ti マンガン 鉄 23V 24Cr |25Mn 26F€ コn 39.10 40,08 ニッケル 鋼 亜鉛 ガリウム ゲルマニウム ヒ素 セレン クリプトン |20 28N1 44,96 47.87 50.94 29Cu 30Zn |31GA 32GE 35Br 90 52,00 54.94 33AS 34SE 36Kr Potassium Calcium Scandium Titanium 55.85 4 Vanadium Chromium Manganese 69.72 58,69 63.55 65,38 72.63 74.92 78.97 Iron ルビジウム ストロンチウム 「Nickel Copper Zinc Gallium Germanium Arsenic Selenium Bromine Krypton |37R6 イットリウム ジルコニウム ニオプ モリプデン テクネチウム 5 38Sr 39Y 40Zr ルテニウム ロジパラジウム 45R 46Pd 41N6 42MO アンチモン 銀 カドミウム インジウム スズ テルル ヨウ素 キセノン 43TC (99) | 44R山 85.47 47Ag 48Cd 49In 5oSn 51Sb 52TE 53I 54XE 87.62 5 88,91 91.22 92,91 95.95 Rubidium Strontium 101.1 Yttrium Zirconium 107.9 112.4 114.8 118.7 121.8 127.6 126.9 1313 Niobium Molybdenum Technetium 106.4 Ruthenium Rhoo palladium Tin Silver Cadmium Indium Antimony Tellurium lodine Xenon セシウム バリウム ランタノイド 55CS ハフニウム タンタル タングステン ラドン オスミウム 76Os アスタチン 6 56Ba レニウム イリ 白金 ボロニウム 金 水銀 タリウム ピスマス 57~71 マ 72HF 73T. 74W 86R. 75RE 81TI |204.4 83Bi 8aPo 85At 6 1 78Pt 19 195.1 8oHg 82Pb 132.9 137.3 79Au 178.5 180.9 「210 (2 Caesium 183,8 200.6。 207.2 29.0 (210 Barium 186.2 190,2 197.0 Hafnium Tantalum Tungsten Bismuth Polonium Astatine Radon Rhenium Osmium Iridiu Platinum Gold Mercury Thallium Lead フランシウム ラジウム アクチノイド オガネソン ラザホージウム ドブニウム モスコピウム リバモリウム テネシン フレロピウム 87FF シーボーギウム コペルニシウム ニホニウム 88Ra (226) 117TS 1180g 7 ポーリウム ハッシウム マイトネリゾームスタチウム レントゲニウム 104RF 115MC 116LV 106Sg| 107Bh 108HS 109N110DS|| 11Rg 112Cn 113Nh (271) 89~103 105DD 114F1 (223) (293) (294) マ (267) (285) (278 (29) (29) (293) Francium (268) (272) (276 (281) (280) Oganesson Radium (277) Livermorium Tennessine Rutherfordium Flerovium Moscovium Dubnium Seaborgium Meitnerarmstadtium Roentgenium Copernicium Nihonium Bohrium Hassium

解決済み 回答数: 1
英語 高校生

この長文がどんな話なのか理解できません😥 出来れば段落ごとに要約して頂けると助かります😔 よろしくお願いします!!!!!!!!!🙇🏽‍♀️🙇🏽‍♀️

We are,(to a remarkable degree, the right distance from the right sort of star, one e 5 of ten billion and we wouldn't be here now./ We are also fortunate to orbit where we that is big enough to radiate lots of energy, but not so big as to burn itself out swiftly t 1s a curiosity bf physics that the larger a stor the more rapidly it burns. Had our sun Ocen ten times as massive、it would have evhonsted itself after ten million years instead of do. 1o0 much nearer and evervthing on Farth would have boiled away. Much rarther away and everything would have frozen. の14 m 1978, an astrophysicist named Micheel Hart made some calculations and Concluded that Earth would have been uninhabitable had it been just 1 percent rartner That's not much, and in fact it wasn't enough. percent 10 from or 5.percent closer to the Sun. The figures have since been refined and made a little more generous 5 nearer and I5 percent farther are thought to be more accurate assessments 1oI om zone of habitability - but that is still a narrow belt. To appreciate just how narrow, you have only to look at Venus. Venus 1s only ©10 15 twenty-five million miles closer to the Sun than we are. The Sun's warmth reaches it just two minutes before it touches us. In size and composition, Venus is very like Earth, but the small difference in orbital distance made all the difference to (3)how it turned out. It appears that during the early years of the solar system Venus was only slightly warmer than Earth and probably had oceans. But those few degrees of extra 20 warmth meant that Venus could not hold on to its surface water, with disastrous consequences for its climate. As its water evaporated, the hydrogen atoms escaped into space, and the oxygen atoms combined with carbon to form a dense atmosphere of the greenhouse gas CO2. Venus became stifling. Although people of my age will recall a time when astrononmers hoped that Venus might harbor life beneath its padded 25 clouds, possibly even a kind of tropical vegetation, we now know that it is much too fierce an environment for any kind of life that we can reasonably conceive of. Its surface temperature is a roasting 470 degrees centigrade (roughly 900 degrees Fahrenheit), which is hot enough to melt lead, and the atmospheric pressure at the surface is ninety times that of Earth, or more than any human body could withstand We lack the technology to make suits or even spaceships that would allow us to visit Our knowledge of Venus's surface is based on distant radar imagery and som。 disturbing noise from an unmanned Soviet probe that was dropped hopefully into the

解決済み 回答数: 1
英語 高校生

和訳の確認をしてほしいです! お願いします🙇‍♂️🙇‍♀️

TR3T Humans usually breathe from sixteen to twenty times each minute. If you analyzed 01 the air you breathe, you would find it is a mixture of different gases. Most of it is *nitrogen about four-fifths. One-fifth is oxygen. There is also a tiny amount of carbon dioxide, a little "water vapor (which gives air its humidity), and some "traces of 05 what are called "rare gases. If you were to put a bag over your nose and mouth to catch the air you breathe out, i図 you would find (1)Some strange changes. There would still be the same amount of nitrogen. There would also be the same traces of rare gases. But there would be much less oxygen and a hundred times more carbon dioxide than in the air you breathe in. 10 There would also be considerably more water vapor. TR33 ,What happens is that each time you breathe, an exchange takes place. You keep Some oxygen; you breathe out much more carbon dioxide and water vapor than you breathed in. 、The reason is that every moment of the day and night your body is using up energy. Your heart uses up energy as it beats. Your muscles use up energy. So 15 does your brain, and so does every other part of you. All this energy is produced by the work of the millions and millions of cells that make up your body. Every one of these cells needs Oxygen in order to do its work. As the cells use up oxygen, they form carbon dioxide, which is a “waste product. So your body carries out these two processes at the same time. You breathe in the m3 20 OXygen that cells need to produce energy. You breathe out the carbon dioxide that is harmful. It sounds so simple. Yet your life depends on these processes happening dav and night without interruption.

回答募集中 回答数: 0
英語 高校生

To devastating effect のtoの働きを教えて欲しいです!

and amphibians, The RLI values show that all of these animal groups are dropping in number, with corals facíng the greatest danger of extinction.) increasing armounts of gas, Coal and other fossil fuels over the past 150 years, Humans are endangering species in a variety of ways) (By burning people have elevated the levcl of carbon dioxidol Their RLI values dropped from about 0.97 in 1996 to just above 0.8 in 2010,/ rincluding the following four major animal groups: corals, birds, mammals, already disappeared! The IUCN has gathered data on numerous species, 5回 英語(リーディング) S B You are stidying bow human beings are affecting the planét. You are going SV to read the following article「to understand the human impact pn world animal populations For centuries, humans have changed the environment around them through activities such as farming, fishing and cutting down trees. However, today they are changing the natural world at a faster rate than ever before to devastating effect, A report by the United Nations (UN) shows that up to one milion species of plants and animals are in danger of going extinct. The loss of these species will destroy entire ecosystems/ threatening_the continued existence of humans all over the world. 2 The UN report draws on data gathered by the International Union for Conservation of Nature (1UCN). The 1UCN created a Red List Index RLD that it uses to predict trends within different plant and animal groups. Croups with an RLI value of 1.0 are thOse that are not expected to become inct in the near future. Those with an RLI value of 0 are those that have a 3

解決済み 回答数: 1