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Mathematics Senior High

(3)です。 下線の展開図での考え方がよく分からず、詳しく解説していただけるとありがたいです。

208 電房 例題 137 四面体 ABCD があり, AB=BC=CA=8, BD=10 である。 COS ∠ABD= (1) 辺ADとCDの長さ (3) 辺AC上の点Eに対して, BE + ED の最小値 23 32' COS <CAD= CHART O OLUTION 11 のとき、次のものを求めよ。 14 空間図形の問題 平面図形 (三角形) を取り出す (1) △ABDと△ACD (2) ACD を取り出して余弦定理を使う。 解答 (1) △ABD において, 余弦定理により AD²=82+102-2・8・10cos∠ABD = 49 よって, AD>0 であるから [AD=7_ △ACD において, 余弦定理により CD2=72+82-2・7・8 cos ∠CAD=25 よって, CD>0 であるから CD=5 (2) ACD に余弦定理を適用して cos ZACD= よって ∠ACD=60° (3) 右の図のように, 平面上の四角形 ABCD について考える。 3点B. E. Dが1つの直線上にあ るとき, BE+ED は最小になる。 よって, BCD において, 余弦定 理により BD'=82 +52-2・8・5cos∠BCD=129 BD =√129 /129 ゆえに, BD>0 であるから したがって 求める最小値は (3) 側面の△ABCと△ACD を平面上に広げて考える。 なお,平面上の2点間を結ぶ最短の経路は,2点を結ぶ線分である。... 82 +52-721 2・8・5 (2) ∠ACD の大きさ B 2 B 8 8 8 8 120° A 10 8 E 60°60° x+x C C 7 15 〔類 武庫川女子大] D 基本 118,134 D ← cos ∠ABD= 23 32 cos CAD=- HE A 80-A0-BL 14 ◆四面体 ABCD の側面 △ABC, △ACD を平面 上に広げる。 ◆最短経路は展開図で! 点を結ぶ線分になる。 PRACTICE・・・・ 137 ③ 1辺の長さがαの正四面体OABCにおいて, 辺AB, BC, Occes A 上にそれぞれ点P, Q, R をとる。 頂点Oから, P, Q, R の順 に3点を通り,頂点Aに至る最短経路の長さを求めよ。 P ← ∠BCD =∠ACB + ∠ACD=120 1 cos 120°=-20 EXERCIS A 1112 A a: (1) (2) R 1 とうEゥ 112③ 1 113③ P 114③ 115③ 116③ 117

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English Junior High

英検対策の問題です。 中1なのですか分からないとこばっかりで…。 解説も出来れば、出来ればでいいので お願いします🙇‍♀️⤵️

13 (1) から (15) まで ( 1つ選び、その番号のマークをぬりつぶしなさい。 (2) (1) A: Mike, have you called Jill to tell her about our meeting tomorrow? B: No, not ( 1 yet ―次試験 筆記 ). I'll call her after lunch. 2 over 3 always Brian is going to visit the (> ) with his class next week. He wants to see many kinds of fish there. 1 college 4 garage 大学 EL (3) A: These are delicious tomatoes. B: Thank you. We ( 1 grew に入れるのに最も適切なものを 1,2,3,4の中から 2 aquarium 3 stadium *17 (7) A: It's so hot! 2 thought 2 special (6) Helen and Yumiko ( they're good friends. 1 put (4) Jeff went fishing on Sunday. He caught nine fish. One was very big, but the () were small. 1 another 2 ones 3 others 4 sometimes (5) A: I heard that you're going to Rome next week. B: That's not ( ). I'm going to Paris. 1 true 2 thought ) them in our garden. 3 fought 4 knew 4 all 3 met 3 common 4 main 3) in the tennis club at school. Now 4 found B: Here, use this (2). It will cool you down. 2 fan 3 hill 71% 1 line 4 head 頭 75 78 (8) People think I can speak French because my mother is from France. But (A ) fact, I can only speak English. 1 by 2 on f 3 for 4 in (9) The rock group was very popular, so the concert hall was 3) of people. ( 1 thick 2 full 3 deep 4 high (10) Lisa and her family didn't go ( planning to go on a trip this year. 1 away 2 at B: OK. 1 pass (11) A: I told my mother that I would be home by 7:00. I don't ) my promise, so I have to go now. want to ( 2 se 4 lend 2 color 3 through 4 behind (12) Jim bought a new house, so he had to move his things. All his friends were on vacation, so they couldn't give him a (/). 1 part ) last summer, so they're 3 break (13) A: Excuse me. Could you tell me ( map? 2 won't 3 front (14) A: Jack is a police officer, (3 B: No, he's a doctor. 1 isn't 2 to teach B: Sure. There's a bookstore on the fifth floor. 1 which 2 why 3 what 4) I can buy a world ) he? 4 hand 3 doesn't 3 teach 4 where 4 can't (15) I can't ride a bike, but my brother can. I asked him (3) me. 1 teaches 4 taught 19年度第1回 記

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English Senior High

これの答え教えてください🙇‍♀️

eve latin ethi 定する =ろう -ld Ce た al homsmo n ) elevator is becoming a reality. Carbon nanotubes discovered scientist made it possible in ( ). Though there ) to solve, the elevator will have many good points. ) than a rocket because it will use ) than a rocket, which might crash ) panels in space. In ). In the ) to space by the elevator. ) of outer ( ►Fill in the blanks. A ( by a ( are still a lot of ( The elevator will be ( ) power. It will be ( or ( ). Also, it will let us addition, it will be our gateway for ( future, everyone might be able to take a ( Active Study 日本の宇宙開発について調べ, 簡単な英語で発表してみよう。 Drills A Change the verbs into the correct form. 1. If it (be) not raining, we could see the full moon. 2. If our school had a science club, I will join ) it. 3. If he were an astronaut, he (can travel) to space. place ( * astronaut [æstronò:t] FI 4. If I (see) a shooting star, I would make a wish. 5. What would you take with you if you (go) to the moon? LESSON B Make the two sentences into one using "..., where ~.” 1. The boy went to the Tanegashima Space Center. He saw a real rocket there. 2. I climbed Mt. Fuji. Many tourists were taking pictures there. 3. Akira entered a university in America. He studied science there. C Change the verbs into the correct form. 1. I (study) hard for the science exam about this time tomorrow. 2. I (travel) in New Zealand to see the stars about this time next week. 3. Don't call Misaki between 8 and 9 o'clock tonight. She practice ) the piano. 4. A: Can we meet tomorrow? B: Sure, but not in the morning. I play ) tennis with my club members then. 51 (-2-¹)- 乗根で

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Mathematics Senior High

bが当たる確率は、aと同じように1/4なのになんで確率の加法定理を使わないといけないんですか?? あと、AとBの和事象でどうしてBの確率が出てくるんですか?

290 00000 基本例題 36 確率の加法定理 (順列) 20本のくじの中に, 当たりくじが5本ある。 このくじをa, b2人がこの順 p.284 基本事項 に1本ずつ1回だけ引くとき, a, b それぞれの当たる確率を求めよ。ただ し,引いたくじはもとに戻さないものとする。 CHARTO SOLUTION 解答 確率P(AUB) A, B が排反ならP(A)+P(B) ......!! b が当たる場合は、次の2つの事象に分かれる。 A:aが当たり , bも当たる よって,事象 A,Bの関係 (A∩B=Øかどうか) に注目する。 なお,確率の乗法定理 (p.310 参照) を利用してもよい。 5 1 20 4 B:a がはずれ,bは当たる a が当たる確率は 次に,a, b2人がこの順にくじを1本ずつ引くとき、起こりう るすべての場合の数は 20P2=380 (通り) このうち, bが当たる場合の数は A: a が当たり, bも当たる場合 P220(通り) B: a がはずれ, b が当たる場合 15×5=75 (通り) A,Bは互いに排反であるから、確率の加法定理により, bが当たる確率は 20 75 95 1 380 1380 380 P(AUB)=P(A)+P(B)=; + 5P₁ 20P₁ でも当たる確率 ◆2本のくじを取り出して a,bの前に並べる場合 の数。 amoupra ◆ 事象 A, B は同時に起 こらない。 INFORMATION 当たりくじを引く確率は同じ 上の例題において,1本目が当たる確率と2本目が当たる確率はともに 1/2 で等しい。 一般に, 当たりくじを引く確率は, 引く順番に関係なく一定である。 また,引いたくじをもとに戻すものとすると、1本目が当たる確率と2本目が当たる 確率はともにである。したがって 当たりくじを引く確率は,引く順,もとに戻す、もとに戻さないに関係なく等しい。 PRACTICE・・・・ 36 ② ずつ1回だけ引くとき、 次の確率を求めよ。 ただし, 引いたくじはもとに戻さないも 20本のくじの中に当たりくじが4本ある。 このくじをa,b,c 3人がこの順に、1本 のとする。 (1) り る確率

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English Senior High

mainstreamⅢ chapter18 章末問題 解答教えてください!

6 Chapter 18 Comprehension a. On the basis of Gurdon's research, Yamanaka revealed that specialized cells from a mature Choose the appropriate answer. body can be transformed into iPS cells. frog. b. Gurdon placed cells from the skin of mice into an unfertilized egg cell of a c. Yamanaka took cells from the blood of mice and transformed them into a baby. d. The only difference between Gurdon's and Yamanaka's experiments was what cells they used. e. Organ rejection will no longer be a problem because it has become possible to develop organs from the patients' own cells. f. iPS cells will soon make it possible to cure all types of diseases. g. Yamanaka admits that iPS technology has done harm in some cases. h. Even as a scientist Professor Yamanaka believed that his mother saw his father's ghost. i. Professor Yamanaka has never thought of giving up research. found iPS ce j. What Professor Yamanaka wanted to say in the speech was what seems unfortunate at first may turn out to be fortunate in the end. not e mes B Choose the most appropriate main theme. a. John Gurdon and Shinya Yamanaka won the Nobel Prize because they helped each other for 40 years to create iPS cells. Chapter 18 | Minis SO 15 b. We should be careful about new technology because it takes time to put it into use and it can do harm. 24 c. Professor Yamanaka has experienced challenges in his life but they were also opportunities, one of which led to the Nobel Prize.

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