44話 ・劇中は1月24日。放送日は1999年1月17日 ・高峯博士はロボタックを作った天才科学者 ロボット工学の第一人者で、22年前に長老がハラッパ国に招いた 以来、ハラッパ国のロボット開発やランドツールの研究で大変な功績を立てた 高峯博士はトラボルトも作った。トラボルトはロボタックより前に作られたプロトタイプ 0564名無しより愛をこめて2018/04/22(日) 16:01:40.17ID:Y8xE5zKn0 *** 0565名無しより愛をこめて2018/04/22(日) 16:22:36.57ID:NG2pTRnVd>>563 訂正 五十嵐三南子:桜子の母 0566名無しより愛をこめて2018/04/22(日) 16:49:05.96ID:Y8xE5zKn0 *** 0567名無しより愛をこめて2018/04/22(日) 19:27:55.69ID:xZjxIQxad>>563 訂正 佐伯聖羅は子供時代の桜子かもしれない 0568名無しより愛をこめて2018/04/22(日) 19:28:57.23ID:Y8xE5zKn0 *** 0569名無しより愛をこめて2018/04/24(火) 10:46:19.57ID:aKfnnZxd0 899:名無しより愛をこめて(ワッチョイW 0eed-qB0K):2018/04/24(火) 10:41:43.46 ID:AHFT+WeI0 ロボタック 怪盗チェリーの捜査に警察が動いてるということは被害届が出され逮捕状も出ているという事ですが 独断で被疑者死亡を捏造し桜子を見逃す唐松刑事の警察官としてのモラルが無さすぎて理不尽です 0570名無しより愛をこめて2018/04/24(火) 11:39:37.59ID:YjX9xO2C0 Maria Sk?odowska-Curie jest jedyn? kobiet?, ktora zdoby?a dwie Nagrody Nobla w dziedzinie fizyki i chemii. Zyska?a s?aw? jako badaczka promieniotworczo?ci i odkrywczyni dwoch nowych pierwiastkow - radu i polonu. Do?wiadczenia, ktore przeprowadza?a wraz ze swoim m??em Pierre’em Curie i ktore kontynuowa?a po jego ?mierci doprowadzi?y do powstania pierwszych metod badania wn?trza atomu. By?a najs?awniejsz? uczon? na ?wiecie, jednak nie zepsu? j? ten fakt. Nauka by?a dla niej w ?yciu najwa?niejsza.
Urodzi?a si? w 1867 roku w Polsce, w Warszawie. By?a najm?odsz? spo?rod pi?ciorga siostr. Nie mia?a ?atwego dzieci?stwa. Jej ojciec by? profesorem fizyki. Pomimo trudnych czasow rodzice bardzo wspierali swoje corki w zdobywaniu wiedzy. Maria, po uko?czeniu pensji w Warszawie, kontynuowa?a nauk? pocz?tkowo na nielegalnym Uniwersytecie Lataj?cym, a nast?pnie korzystaj?c z pracowni Muzeum Przemys?u i Rolnictwa. W 1891 roku wyjecha?a do Francji, do Pary?a, gdzie wst?pi?a na Sorbon?, ktora ju? wowczas by?a jednym z czo?owych uniwersytetow ?wiata, gromadz?cym wiele s?aw naukowych i s?yn?cym z wysokiego poziomu studiow. W 1894 roku uzyska?a stopie? magistra w dziedzinie fizyki i matematyki. W tym roku rownie? pozna?a Pierre’a (Piotra) Curie, za ktorego wysz?a za m?? w 1895 roku. Maria rozpocz??a w laboratorium m??a niezale? ne badania nad nowym wowczas problemem radioaktywno?ci (promieniotworczo?ci), b?d?cym tematem do jej rozprawy doktorskiej. Ona jako pierwsza zmierzy?a promieniowanie znanych wowczas pierwiastkow ? uranu i toru, dochodz?c do wniosku, ?e promieniowanie to zachodzi wewn?trz atomow. Kontynuuj?c badania A. Henri’ego Becquerela nad luminescencj? soli uranu w 1896 roku napisa?a prac? pod tytu?em ?O promieniowaniu wysy?anym przez zwi?zki uranu i toru”, w ktorej wysun??a pogl?d o a tomowym charakterze promieniotworczo?ci. To odkrycie zrewolucjonizowa?o owczesn? fizyk? i skierowa?o zainteresowania uczonych na badania nad wn?trzem atomow.
Podczas systematycznych bada? promieniotworczych minera?ow zawieraj?cych uran i t or Maria Sk?odowska-Curie stwierdzi?a, ?e niektore z nich wykazuj? wi?ksz? aktywno?? promieniotworcz?, ni? by to wynika?o z zawarto?ci w nich uranu i toru. W wyniku tych prac wyrazi?a przypuszczenie, ?e minera?y te zawieraj? silniejsze, od dotychczas znanych, pierwiastki promieniotworcze.
Dalsze badania prowadzone wspolnie z m??em P. Curie, doprowadzi?y do odkrycia w 1898 roku dwoch nowych pierwiastkow radioaktywnych pochodz?cych od uranu ? polonu i radu. Oba te pierwiastki znalaz?y po?niej szerokie zastosowanie, m. in. w medycynie. Polon stosowany jest np. jako ?rod?o cz?stek alfa oraz w mieszaninie z berylem jako ?rod?o neutronow, a tak?e jako aktywator fosforow w lampach luminescencyjnych. Ponadto znalaz? on zastosowanie w generowaniu pol elektrostatycznych w ma?ych przeno?nych ?rod?ach pr?du, na przyk?ad takich, ktorych w medycynie u?ywa si? do zasilania serca. Rad jest pierwiastkiem, ktorego niewielka cz?steczka mo?e przez wiele lat emitowa? ciep?o i ?wiat?o. Jest 0571名無しより愛をこめて2018/04/24(火) 11:42:08.68ID:YjX9xO2C0 Omar Khayyam, Arabic in full Ghiy?th al-D?n Ab? al-Fat? ?Umar ibn Ibr?h?m al-N?s?b?r? al-Khayy?m?, (born May 18, 1048, Neysh?b?r [also spelled N?sh?p?r], Khor?s?n [now Iran]?died December 4, 1131, Neysh?b?r), Persian mathematician, astronomer, and poet, renowned in his own country and time for his scientific achievements but chiefly known to English-speaking readers through the translation of a collection of his rob???y?t (“quatrains”) in The Rubaiyat of Omar Khayyam (1859), by the English writer Edward FitzGerald.
His name Khayyam (“Tentmaker”) may have been derived from his father’s trade. He received a good education in th e sciences and philosophy in his native Neysh?b?r before traveling to Samarkand (now in Uzbekistan), where he completed t he algebra treatise, Ris?lah fi?l-bar?h?n ?al? mas??il al-jabr wa?l-muq?balah (“Treatise on Demonstration of Problems of Algebra”), on which his mathematical reputation principally rests. In this treatise he gave a systematic discussion of the solution of cubic equations by means of intersecting conic sections. Perhaps it was in the context of this work that he discovered how to extend Abu al-Waf?’s results on the extraction of cube and fourth roots to the extraction of nth roots of numbers for arbitrary whole numbers n.
He made such a name for himself that the Seljuq sultan Malik-Sh?h invited him to E?fah?n to undertake the astronomical observations necessary for the reform of the calendar. (See The Western calendar and calendar reforms.) To accomplish this an observatory was built there, and a new calendar was produced, known as the Jal?l? calendar. Based on making 8 of every 33 years leap years, it was more accurate than the present Gregorian calendar, and it was adopted in 1075 by Malik-Sh?h. In E?fah?n he also produced fundamental critiques of Euclid’s theory of parallels as well as his theory of proportion. In connection with the former his ideas eventually made their way to Europe, where they influenced the English mathematician John Wallis (1616?1703); in connection with the latter he argued for the important idea of enlarging the notion of number to include ratios of magnitudes (and hence such irrational numbers as Square root of√2 and π).
His years in E?fah?n were very productive ones, but after the death of his patron in 1092 the sultan’ s widow turned against him, and soon thereafter Omar went on a pilgrimage to Mecca. He then returned to Neysh?b?r where he taught and served the court as an astrologer. Philosophy, jurisprudence, history, mathematics, medicine, and astronomy are among the subjects mastered by this brilliant man.
Omar’s fame in the West rests upon the collection of rob???y?t, or “quatrains,” attributed to him. (A quatrain is a piece of verse complete in four lines, usually rhyming aaaa or aaba; it is close in style and spirit to the epigram.) Omar’s poems had attracted comparatively little attention until they inspired FitzGerald to write his celebrated The Rubaiyat of Omar Khayyam, containing such now-famous phrases as “A Jug of Wine, a Loaf of Bread?and Thou,” “Take the Cash, and let the Credit go,” and “The Flower that once has blown forever dies.” These quatrains have been translated into almost every major language and are largely responsible for colouring European ideas about Persian poetry. Some scholars have doubted that Omar wrote poetry. His contemporaries took no notice of his verse, and not until two centuries after his death did a few quatrains appear under his name. Even then, the verses were mostly used as quotations against particular views ostensibly held by Omar, leading some scholars to suspect that they may have been invented and attributed to Omar because of his scholarly reputation.
Each of Omar’s quatrains forms a complete poem in itself. It was FitzGerald who conceived the idea of 0572名無しより愛をこめて2018/04/24(火) 11:42:44.82ID:YjX9xO2C0 I went to the hospital due to back pain, and they put me on a water bed kind of thing. The thing that fix your back by vibrating. The strength of the vibration have 3 setting, “strong” “medium” and “weak”, I started off with “weak” but couldn’t feel a thing. So I said to the nurse “I can’t feel anything” She reply “Then I’ll set it to medium, if there anything else just use the call button.” And she left after saying that. After a while, I still don’t feel the vibration I press the button and call the nurse over “I’ll set it to strong then.” And she sets it to “strong.” The strangest thing, I still couldn’t feel a thing, then I look to my side, The old man right next to me is vibrating like crazy. 0573名無しより愛をこめて2018/04/24(火) 11:43:15.08ID:YjX9xO2C0 This one time I was in a car with 3 of my friend. The car we were in was a modified one, where in a normal car all seats face the front. This seats in this car and turn around, so everyone can be facing each other Since we were all friend so why not sit together, so my friend turn the seat around, And the some guy holding up a news paper also got turned since he was in the same seat. So my friend turn the chair back, And the guy was turned around again. 0574名無しより愛をこめて2018/04/24(火) 11:44:06.86ID:YjX9xO2C0 When your mom walk in on you watching prom, You said “What are they making!? Children~!! Correct~!!” While trying to pass it off as a joke, mom reply “I’m sorry I could only make someone like you”
You guys make FOREX too hard The stock is very mechanic, as long as the loss-cut is -2% and profit taking is 4% then it’s fine Using this simple rule, I made my $820,000 profile into $140,000
You won’t get good result on that… 0575名無しより愛をこめて2018/04/24(火) 11:47:20.27ID:aKfnnZxd0 *** 0576名無しより愛をこめて2018/04/25(水) 08:20:05.89ID:0QDsDZzx0 大会の結果になります。以下になります。