【画像あり】 サッカーin bristle
水汚っ>σ<どーも、小さい頃海の中でオシッコしてた負け犬三昧です。昨日いきなり電話があってサッカーに来いと。。。お、久しぶりだから行くかって事で、今日8時半集合で行って来ました。二度寝に失敗して、起きたのが8分前。。。ってか、8時半って早すぎだし。。。学生は10時以降に起きないと蛇が来るってコトワザが・・・あったようなないような。まぁイギリス人の時間は待ち合わせ時刻+10分なのでゆっくりシャワー浴びてさすがに朝飯食わないと試合中ぶっ倒れるので蜂蜜をシャブって出かけました。案の定5分遅刻だったけど、車で向かえにきたキャプテンはもっと遅かったです。(計算済みで、近くの大きな町のブリストルってとこでリーグ戦の試合。今日の相手は皆でかくて(イギリス人皆でかいですが)一瞬焦ったけど、結果は4-0勝ちましたーっ>_<久しぶりだったので、前半だけでしたが、今筋肉痛でタイプしてます。車で行ったんだけど、帰りはギュウギュウで、余計筋肉痛が増しました。今(午後三時)から学校で統計の課題やります。ってか、三問あるんだけど、一問目と二問目はよくある統計学の問題。三問目がなんかトリッキーな問題。You are tasked with evaluating a novel concept in Mars exploration. The recent Beagle 2 expedition was touted as leading edge because it was small and inexpensive, yet packed a lot of punch. It was a failure however partly because it relied on a single device to deliver the goods, and that device malfunctioned somehow (it probably crashed into the planet's surface, although that has not yet been confirmed). To get over this issue, people are now looking at solutions which don't rely on all of the eggs being in one basket, but rather on distributed systems. One such solution was proposed by one of our lecturers (Dr. Mike Carley) - he suggested using the equivalent of paper airplanes for exploring Mars. The idea is to make a large number of small devices which can be deployed in the upper atmosphere of the planet and glide for as long as they can, relaying back information about their environment, both the atmosphere they're in, and the ground below.Your assignment is to look into different aircraft designs. Design three or more different types of paper airplanes, make five of each design, and fly them in a room big enough that they do not collide with the walls or furniture. Measure the total distance covered by each airplane. Analyse your data using the statistical techniques you have studied. Check first whether your data are normally distributed. If they are, you can use parametric tests such as anova and Tukey's test. If not, try converting them by taking logs or otherwise. If that still doesn't work, turn to non-parametric tests. Describe your designs (note - different design need not mean necessarily folding them differently - you might try using the same folding technique, but with weight added in different places), present your data, and show your statistical analysis. Keep your report brief, but complete簡単に訳すと火星探査で紙飛行機を応用して、その飛行距離を統計学で比較するもの。ってか、紙飛行機本当に作るのか・・・