海洋之灾普朗克是英雄联盟里台词最多的英雄么
Max Planckborn April 23, 1858, Kiel, Schleswig [Germany]died Oct. 4, 1947, Göttingen, W.Ger.Max Karl Ernst Ludwig Planck theoretical physicist who originated quantum theory, which won him the Nobel Prize for Physics in 1918. Planck made many contributions to theoretical physics, but his fame rests primarily on his role as originator of the quantum theory. This theory revolutionized our understanding of atomic and subatomic processes, just as Albert Einstein's theory of relativity revolutionized our understanding of space and time. Together they constitute the fundamental theories of 20th-century physics. Both have forced man to revise some of his most cherished philosophical beliefs, and both have led to industrial and military applications that affect every aspect of modern life.Early life Max Karl Ernst Ludwig Planck was the sixth child of a distinguished jurist and professor of law at the University of Kiel. The long family tradition of devotion to church and state, excellence in scholarship, incorruptibility, conservatism, idealism, reliability, and generosity became deeply ingrained in Planck's own life and work. When Planck was nine years old, his father received an appointment at the University of Munich, and Planck entered the city's renowned Maximilian Gymnasium, where a teacher, Hermann Müller, stimulated his interest in physics and mathematics. But Planck excelled in all subjects, and after graduation at age 17 he faced a difficult career decision. He ultimately chose physics over classical philology or music because he had dispassionately reached the conclusion that it was in physics that his greatest originality lay. Music, nonetheless, remained an integral part of his life. He possessed the gift of absolute pitch and was an excellent pianist who daily found serenity and delight at the keyboard, enjoying especially the works of Schubert and Brahms. He also loved the outdoors, taking long walks each day and hiking and climbing in the mountains on vacations, even in advanced old age. Planck entered the University of Munich in the fall of 1874 but found little encouragement there from physics professor Philipp von Jolly. During a year spent at the University of Berlin (1877–78), he was unimpressed by the lectures of Hermann von Helmholtz and Gustav Robert Kirchhoff, despite their eminence as research scientists. His intellectual capacities were, however, brought to a focus as the result of his independent study, especially of Rudolf Clausius' writings on thermodynamics. Returning to Munich, he received his doctoral degree in July 1879 (the year of Einstein's birth) at the unusually young age of 21. The following year he completed his Habilitationsschrift (qualifying dissertation) at Munich and became a Privatdozent (lecturer). In 1885, with the help of his father's professional connections, he was appointed ausserordentlicher Professor (associate professor) at the University of Kiel. In 1889, after the death of Kirchhoff, Planck received an appointment to the University of Berlin, where he came to venerate Helmholtz as a mentor and colleague. In 1892 he was promoted to ordentlicher Professor (full professor). He had only nine doctoral students altogether, but his Berlin lectures on all branches of theoretical physics went through many editions and exerted great influence. He remained in Berlin for the rest of his active life. Planck recalled that his “original decision to devote myself to science was a direct result of the discovery . . . that the laws of human reasoning coincide with the laws governing the sequences of the impressions we receive from the world about us; that, therefore, pure reasoning can enable man to gain an insight into the mechanism of the [world]. . . .” He deliberately decided, in other words, to become a theoretical physicist at a time when theoretical physics was not yet recognized as a discipline in its own right. But he went further: he concluded that the existence of physical laws presupposes that the “outside world is something independent from man, something absolute, and the quest for the laws which apply to this absolute appeared . . . as the most sublime scientific pursuit in life.” The first instance of an absolute in nature that impressed Planck deeply, even as a Gymnasium student, was the law of the conservation of energy, the first law of thermodynamics. Later, during his university years, he became equally convinced that the entropy law, the second law of thermodynamics, was also an absolute law of nature. The second law became the subject of his doctoral dissertation at Munich, and it lay at the core of the researches that led him to discover the quantum of action, now known as Planck's constant h, in 1900. In 1859–60 Kirchhoff had defined a blackbody as an object that reemits all of the radiant energy incident upon it; i.e., it is a perfect emitter and absorber of radiation. There was, therefore, something absolute about blackbody radiation, and by the 1890s various experimental and theoretical attempts had been made to determine its spectral energy distribution—the curve displaying how much radiant energy is emitted at different frequencies for a given temperature of the blackbody. Planck was particularly attracted to the formula found in 1896 by his colleague Wilhelm Wien at the Physikalisch-Technische Reichsanstalt (PTR) in Berlin-Charlottenburg, and he subsequently made a series of attempts to derive “Wien's law” on the basis of the second law of thermodynamics. By October 1900, however, other colleagues at the PTR, the experimentalists Otto Richard Lummer, Ernst Pringsheim, Heinrich Rubens, and Ferdinand Kurlbaum, had found definite indications that Wien's law, while valid at high frequencies, broke down completely at low frequencies. Planck learned of these results just before a meeting of the German Physical Society on October 19. He knew how the entropy of the radiation had to depend mathematically upon its energy in the high-frequency region if Wien's law held there. He also saw what this dependence had to be in the low-frequency region in order to reproduce the experimental results there. Planck guessed, therefore, that he should try to combine these two expressions in the simplest way possible, and to transform the result into a formula relating the energy of the radiation to its frequency. The result, which is known as Planck's radiation law, was hailed as indisputably correct. To Planck, however, it was simply a guess, a “lucky intuition.” If it was to be taken seriously, it had to be derived somehow from first principles. That was the task to which Planck immediately directed his energies, and by December 14, 1900, he had succeeded—but at great cost. To achieve his goal, Planck found that he had to relinquish one of his own most cherished beliefs, that the second law of thermodynamics was an absolute law of nature. Instead he had to embrace Ludwig Boltzmann's interpretation, that the second law was a statistical law. In addition, Planck had to assume that the oscillators comprising the blackbody and re-emitting the radiant energy incident upon them could not absorb this energy continuously but only in discrete amounts, in quanta of energy; only by statistically distributing these quanta, each containing an amount of energy hn proportional to its frequency, over all of the oscillators present in the blackbody could Planck derive the formula he had hit upon two months earlier. He adduced additional evidence for the importance of his formula by using it to evaluate the constant h (his value was 6.55 ´ 10-27 erg-second, close to the modern value), as well as the so-called Boltzmann constant (the fundamental constant in kinetic theory and statistical mechanics), Avogadro's number, and the charge of the electron. As time went on physicists recognized ever more clearly that—because Planck's constant was not zero but had a small but finite value—the microphysical world, the world of atomic dimensions, could not in principle be described by ordinary classical mechanics. A profound revolution in physical theory was in the making. Planck's concept of energy quanta, in other words, conflicted fundamentally with all past physical theory. He was driven to introduce it strictly by the force of his logic; he was, as one historian put it, a reluctant revolutionary. Indeed, it was years before the far-reaching consequences of Planck's achievement were generally recognized, and in this Einstein played a central role. In 1905, independently of Planck's work, Einstein argued that under certain circumstances radiant energy itself seemed to consist of quanta (light quanta, later called photons), and in 1907 he showed the generality of the quantum hypothesis by using it to interpret the temperature dependence of the specific heats of solids. In 1909 Einstein introduced the wave–particle duality into physics. In October 1911 he was among the group of prominent physicists who attended the first Solvay conference in Brussels. The discussions there stimulated Henri Poincaré to provide a mathematical proof that Planck's radiation law necessarily required the introduction of quanta—a proof that converted James (later Sir James) Jeans and others into supporters of the quantum theory. In 1913 Niels Bohr also contributed greatly to its establishment through his quantum theory of the hydrogen atom. Ironically, Planck himself was one of the last to struggle for a return to classical theory, a stance he later regarded not with regret but as a means by which he had thoroughly convinced himself of the necessity of the quantum theory. Opposition to Einstein's radical light quantum hypothesis of 1905 persisted until after the discovery of the Compton effect in 1922.Planck was 42 years old in 1900 when he made the famous discovery that in 1918 won him the Nobel Prize for Physics and that brought him many other honours. It is not surprising that he subsequently made no discoveries of comparable importance. Nevertheless, he continued to contribute at a high level to various branches of optics, thermodynamics and statistical mechanics, physical chemistry, and other fields. He was also the first prominent physicist to champion Einstein's special theory of relativity (1905). “The velocity of light is to the Theory of Relativity,” Planck remarked, “as the elementary quantum of action is to the Quantum Theory; it is its absolute core.” In 1914 Planck and the physical chemist Walther Hermann Nernst succeeded in bringing Einstein to Berlin, and after the war, in 1919, arrangements were made for Max von Laue, Planck's favourite student, to come to Berlin as well. When Planck retired in 1928, another prominent theoretical physicist, Erwin Schrödinger, the originator of wave mechanics, was chosen as his successor. For a time, therefore, Berlin shone brilliantly as a centre of theoretical physics—until darkness enveloped it in January 1933 with the ascent of Adolf Hitler to power. In his later years, Planck devoted more and more of his writings to philosophical, aesthetic, and religious questions. Together with Einstein and Schrödinger, he remained adamantly opposed to the indeterministic, statistical worldview introduced by Bohr, Max Born, Werner Heisenberg, and others into physics after the advent of quantum mechanics in 1925–26. Such a view was not in harmony with Planck's deepest intuitions and beliefs. The physical universe, Planck argued, is an objective entity existing independently of man; the observer and the observed are not intimately coupled, as Bohr and his school would have it. Planck became permanent secretary of the mathematics and physics sections of the Prussian Academy of Sciences in 1912 and held that position until 1938; he was also president of the Kaiser Wilhelm Society (now the Max Planck Society) from 1930 to 1937. These offices and others placed Planck in a position of great authority, especially among German physicists; seldom were his decisions or advice questioned. His authority, however, stemmed fundamentally not from the official appointments he held but from his personal moral force. His fairness, integrity, and wisdom were beyond question. It was completely in character that Planck went directly to Hitler in an attempt to reverse Hitler's devastating racial policies and that he chose to remain in Germany during the Nazi period to try to preserve what he could of German physics. Planck was a man of indomitable will. Had he been less stoic, and had he had less philosophical and religious conviction, he could scarcely have withstood the tragedies that entered his life after age 50. In 1909, his first wife, Marie Merck, the daughter of a Munich banker, died after 22 years of happy marriage, leaving Planck with two sons and twin daughters. The elder son, Karl, was killed in action in 1916. The following year, Margarete, one of his daughters, died in childbirth, and in 1919 the same fate befell Emma, his other daughter. World War II brought further tragedy. Planck's house in Berlin was completely destroyed by bombs in 1944. Far worse, the younger son, Erwin, was implicated in the attempt made on Hitler's life on July 20, 1944, and in early 1945 he died a horrible death at the hands of the Gestapo. That merciless act destroyed Planck's will to live. At war's end, American officers took Planck and his second wife, Marga von Hoesslin, whom he had married in 1910 and by whom he had had one son, to Göttingen. There, in 1947, in his 89th year, he died. Death, in the words of James Franck, came to him “as a redemption.”Editions of Planck's works include The Theory of Heat Radiation (1914, reprinted 1991; originally published in German, 2nd rev. ed., 1913); Where Is Science Going?, trans. from German (1932, reprinted 1981), discussing free will and determinism; and The Philosophy of Physics, trans. from German (1936, reissued 1963). Planck described his life and work in his Scientific Autobiography, and Other Papers, trans. from German (1949, reissued 1968). Henry Lowood (compiler), Max Planck: A Bibliography of His Non-Technical Writings (1977), lists more than 600 articles published between 1879 and 1976. Hans Kangro, “Max Karl Ernst Ludwig Planck,” in Charles Coulston Gillispie (ed.), Dictionary of Scientific Biography, vol. 11 (1975), pp. 7–17, contains an excellent short biography. Armin Hermann, Max Planck in Selbstzeugnissen und Bilddokumenten (1973); and Hans Hartmann, Max Planck als Mensch und Denker (1953, reissued 1964), are biographies in German. J.L. Heilbron, The Dilemmas of an Upright Man: Max Planck as Spokesman for German Science (1986), concentrates on the moral dilemmas Planck faced. Technical books that treat Planck's work and the history of quantum physics include Edmund Whittaker, A History of the Theories of Aether and Electricity, rev. and enlarged ed., vol. 2, The Modern Theories, 1900–1926 (1953, reissued 1987); Max Jammer, The Conceptual Development of Quantum Mechanics (1966, reissued 1989); Armin Hermann, The Genesis of Quantum Theory (1899–1913) (1971; originally published in German, 1969); Roger H. Stuewer, The Compton Effect: Turning Point in Physics (1975); Hans Kangro, Early History of Planck's Radiation Law (1976; originally published in German, 1970); and Thomas S. Kuhn, Black-Body Theory and the Quantum Discontinuity, 1894–1912 (1978, reprinted 1987). Nontechnical books include Barbara Lovett Cline, The Questioners: Physicists and the Quantum Theory (1965); Emilio Segrè, From X-Rays to Quarks: Modern Physicists and Their Discoveries (1980); Ilse Rosenthal-Schneider, Reality and Scientific Truth: Discussions with Einstein, von Laue, and Planck (1980); and Alex Keller, The Infancy of Atomic Physics: Hercules in His Cradle (1983). Especially noteworthy are three articles by Martin J. Klein: “Max Planck and the Beginning of the Quantum Theory,” Archive for History of Exact Sciences, 1(5):459–479 (1962), “Planck, Entropy, and Quanta, 1901–1906,” The Natural Philosopher, 1:83–108 (1963), and “Thermodynamics and Quanta in Planck's Work,” Physics Today, 19:23–32 (1966).
lol海盗船长英文名
海盗船长中文名为“普朗克” 英文名就多了,具体的就有这几个单词的发音是可以译为普朗克的ancis poulencplanckeplanqueplonkpoulenc
LOL所有英雄的英文名字是什么
黑暗之女:安妮(Annie) 寒冰射手:艾希(Ashe) 蒸汽机器人:布里茨(Blitzcrank) 复仇焰魂:布兰德(Brand) 皮城女警:凯特琳(Caitlyn) 魔蛇之拥:卡西奥佩娅(Cassiopeia) 虚空恐惧:科’加斯(ChoGath) 英勇投弹手:库奇(Corki) 诺克萨斯之手:德莱厄斯(Darius) 皎月女神:黛安娜:(Diana) 祖安狂人:蒙多医生(DrMundo) 荣耀行刑官:德莱文(Delevin) 蜘蛛女皇:伊莉斯(Elise) 寡妇制造者:伊芙琳(Evelynn) 探险家:伊泽瑞尔(Ezreal) 末日使者:费德提克(Fiddlesticks) 无双剑姬:剑姬(Fiora) 潮汐海灵:菲兹(Fizz) 哨兵之殇:加里奥(Galio) 海洋之灾:普朗克(Gangplank) 德玛西亚之力:盖伦(Garen) 酒桶:古拉加斯(Gragas) 法外狂徒:格雷福斯(Graves) 战争之影:赫卡里姆(Hecarim) 大发明家:黑默丁格(Heimerdinger) 刀锋意志:伊瑞利亚(Irelia) 风暴之怒:迦娜(Janna) 德玛西亚皇子:嘉文四世(JarvanⅣ) 武器大师:贾克斯(Jax) 未来守护者:杰斯(Jayce) 天启者:卡尔玛(Karma) 死亡颂唱者:卡尔萨斯(Karthus) 虚空行者:卡萨丁(Kassadin) 不详之刃:卡特琳娜(Katarina) 审判天使:凯尔(Kayle) 狂暴之心:凯南(Kennen) 虚空掠夺者:卡’兹克(Khazix) 深渊巨口:克格’莫(KogMaw) 诡术妖姬:乐芙兰(LeBlanc) 盲僧:李青(Leesin) 曙光女神:蕾欧娜(Leona)
求LOL一些英雄的英文名。
诅咒巨魔:特兰德尔Trundle 刀锋意志:伊瑞利亚(Irelia) 探险伊泽瑞尔(Ezreal) 牛头酋长:阿利斯塔(Alistar) 木乃伊:阿木木(Amumu) 冰晶凤凰:艾尼维亚(Anivia) 黑暗之女:安妮(Annie) 寒冰射手:艾希(Ashe) 虚空恐惧:科’加斯(ChoGath) 末日使者:费德提克(Fiddlesticks) 海洋之灾:普朗克(Gangplank) 审判天使:凯尔(Kayle) 虚空行者:卡萨丁(Kassadin) 英勇投弹手:库奇(Corki) 祖安狂人:蒙多医生(DrMundo) 死亡颂唱者:卡尔萨斯(Karthus) 武器大师:贾克斯(Jax) 风暴女神:迦娜(Janna) 无极剑圣:易(Yi) 寡妇制造者:伊芙琳(Evelynn) 宝石骑士:塔里克(Taric)不详之刃:卡特琳娜(Katarina) 堕天使:莫甘娜(Morgana) 沙漠死神:内瑟斯(Nasus) 雪人骑士:努努(Nunu) 披甲龙龟:拉莫斯(Rammus) 流浪法师:瑞兹(Ryze) 亡灵勇士:赛恩(Sion) 战争女神:希维尔(Sivir) 迅捷斥候:提莫(Teemo) 麦林炮手:崔丝塔娜(Tristana) 蛮族之王:泰达米尔(Tryndamere) 卡牌大师:崔斯特(Twisted Fate) 瘟疫之源:图奇(Twitch) 炼金术士:辛吉德(Singed) 众星之子:索拉卡(Soraka) 嗜血猎手:沃里克(Warwick) 时光守护者:基兰(Zilean) 大发明家:黑默丁格(Heimerdinger) 恶魔小丑:萨科(Shaco) 野兽之灵:乌迪尔(Udyr) 狂野女猎手:奈德丽(Nidalee) 钢铁大师:波比(Poppy) 邪恶小法师:维伽(Veigar) 蒸汽机器人:布里茨(Blitzcrank) 战争之王:潘森(Pantheon) 熔岩巨兽:墨菲特(Malphite) 德玛西亚之力:盖伦(Garen) 风暴之心:凯南(Kennen) 虚空先知:玛尔扎哈(Malzahar) 暮光之眼:慎(Shen) 德邦总管:赵信(XinZhao) 深渊之首:克格’莫(Kog Maw) 够了吧,我也经常这样取名字的-.-
《英雄联盟》中海洋之灾这一英雄的台词有哪些
黑暗之女安妮The Dark ChildAnnie哨兵之殇加里奥The Sentinel's SorrowGalio狂战士奥拉夫The BerserkerOlaf诡术妖姬乐芙兰The DeceiverLeblanc卡牌大师崔斯特The Card MasterTwisted Fate德邦总管赵信The Seneschal of DemaciaXin Zhao首领之傲厄加特The Headman's PrideUrgot猩红收割者弗拉基米尔The Crimson ReaperVladimir末日使者费德提克The Harbinger of DoomFiddlesticks审判天使凯尔The JudicatorKayle无极剑圣易The Wuju BladesmanMaster Yi牛头酋长阿利斯塔The MinotaurAlistar流浪法师瑞兹The Rogue MageRyze亡灵勇士赛恩The Undead ChampionSion战争女神希维尔The Battle MistressSivir众星之子索拉卡The StarchildSoraka迅捷斥候提莫The Swift ScoutTeemo麦林炮手崔丝塔娜The Megling GunnerTristana嗜血猎手沃里克The Blood HunterWarwick雪人骑士努努The Yeti RiderNunu赏金猎人厄运小姐The Bounty HunterMiss Fortune寒冰射手艾希The Frost ArcherAshe蛮族之王泰达米尔The Barbarian KingTryndamere武器大师贾克斯Grandmaster at ArmsJax堕落天使莫甘娜Fallen AngelMorgana时光守护者基兰ChronokeeperZilean炼金术士辛吉德Mad ChemistSinged寡妇制造者伊芙琳The WidowmakerEvelynn瘟疫之源图奇The Plague RatTwitch死亡颂唱者卡尔萨斯The DeathsingerKarthus虚空恐惧科'加斯The Terror of the VoidCho'Gath殇之木乃伊阿木木The Sad Mummy Amumu披甲龙龟拉莫斯The ArmordilloRammus冰晶凤凰艾尼维亚The CryophoenixAnivia恶魔小丑萨科The Demon JesterShaco祖安狂人蒙多The Madman of ZaunDr. Mundo琴瑟仙女娑娜Maven of the StringsSona虚空行者卡萨丁The Void WalkerKassadin刀锋意志艾瑞莉亚The Will of the BladesIrelia风暴之怒迦娜The Storm's FuryJanna海洋之灾普朗克The Saltwater ScourgeGangplank英勇投弹手库奇The Daring BombardierCorki天启者卡尔玛The Enlightened OneKarma宝石骑士塔里克The Gem KnightTaric邪恶小法师维迦The Tiny Master of EvilVeigar诅咒巨魔特朗德尔The Cursed TrollTrundle策士统领斯维因The Master TacticianSwain皮城女警凯特琳The Sheriff of PiltoverCaitlyn蒸汽机器人布里茨The Great Steam GolemBlitzcrank熔岩巨兽墨菲特Shard of the MonolithMalphite不祥之刃卡特琳娜The Sinister BladeKatarina永恒梦魇魔腾The External NightmareNocturne 扭曲树精茂凯The Twisted TreantMaokai荒漠屠夫雷克顿The Butcher of the SandsRenekton德玛西亚皇子嘉文四世The Exemplar of DemaciaJarvan Ⅳ发条魔灵奥莉安娜The Lady of ClockworkOriana齐天大圣孙悟空The Monkey KingWukong复仇焰魂布兰德The Burning VengeanceBrand盲僧李青The Blind MonkLee Sin暗夜猎手薇恩The Night HunterVayne机械公敌兰博The Mechanized MenaceRumble魔蛇之拥卡西奥佩娅The Serpent's EmbraceCassiopeia水晶先锋斯卡纳The Crystal VanguardSkarner大发明家黑默丁格The Revered InventorHeimerdinger沙漠死神内瑟斯The Curator of the SandsNasus狂野女猎手奈德丽The Bestial HuntressNidalee野兽之灵乌迪尔The Animal SpiritUdyr钢铁大使波比The Iron AmbassadorPoppy酒桶古拉加斯The Rabble RouserGragas战争之王潘森The Artisan of WarPantheon探险家伊泽瑞尔The Prodigal ExplorerEzreal金属大师莫德凯撒The Master of MetalMordekaiser掘墓者约里克The GravediggerYorick暗影之拳阿卡丽The Fist of ShadowAkali狂暴之心凯南The Heart of the TempestKennen德玛西亚之力盖伦The Might of DemaciaGaren曙光女神蕾欧娜The Radiant DawnLeona虚空先知玛尔扎哈The Prophet of the VoidMalzahar刀锋之影泰隆The Blade's ShadowTalon放逐之刃锐雯The ExileRiven深渊巨口克格'莫The Mouth of the AbyssKog'Maw暮光之眼慎Eye of TwilightShen光辉女郎拉克丝The Lady of LuminosityLux远古巫灵泽拉斯The Magus AscendantXerath龙血武姬希瓦娜The Half-DragonShyvana九尾妖狐阿狸The Nine Tails FoxAhri法外狂徒格雷福斯The OutlawGraves 潮汐海灵菲兹The Tidal TricksterFizz雷霆咆哮沃利贝尔The Thunder's RoarVolibear深海泰坦诺提勒斯The Titan of the DepthsNautilus机械先驱维克托The Machine HeraldViktor凛冬之怒瑟庄妮The Winter's WrathSejuani无双剑姬菲奥娜The Grand DuelistFiora爆破鬼才吉格斯The Hexplosives ExpertZiggs仙灵女巫璐璐The Fae SorceressLulu战争之影 赫卡里姆The Shadow of WarHecarim惩戒之箭 韦鲁斯The Arrow of RetributionVarus 诺克萨斯之手 德莱厄斯The Hand of NoxusDarius 荣耀行刑官德莱文The Glorious ExecutionerDraven未来守护者杰斯The Defender of TomorrowJayce 荆棘之兴婕拉Rise of The ThornsZyra皎月女神黛安娜Scorn of The MoonDiana傲之追猎者雷恩加尔The PridestalkerRengar暗黑元首辛德拉The Dark SovereighSyndra虚空掠夺者卡'兹克The Void ReaverKha'Zix蜘蛛女皇伊莉丝The Spider QueenElise影流之主劫The Master of ShadowsZed唤潮鲛姬娜美The TidecallerNami皮城执法官蔚The Piltover EnforcerVi魂锁典狱长锤石The Chain WardenThresh德玛西亚之翼奎因Demacia' WingsQuinn生化魔人扎克The Secret WeaponZac冰霜女巫丽桑卓The Ice WitchLissandra暗裔剑魔亚托克斯The Darkin BladeAatrox圣枪游侠卢锡安The PurifierLucian暴走萝莉金克丝The Loose CannonJinx
求lol所有英雄的名字,包括英文
Corki 酷奇Ezreal 伊泽瑞尔Kog'Maw ’莫Miss Fortune 厄运晓Twitch 图奇Vayne 薇恩Teemo 提莫Urgot 厄加特Tristana 崔娜Twisted Fate 崔斯特Ashe 艾希Sivir 西维尔Karma 卡尔Sona 娑娜Taric 塔里克Janna 迦纳Morgana 莫甘娜Zilean 基兰Kayle 凯勒Galio 加里奥Maokai 茂凯Cho'Gath 科’加斯Rammus 拉莫斯shen 慎Alistar 阿利斯塔Amumu 阿木木Singed 辛吉德
