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2009-08-27 First Entry 2009-08-27 21 05 00 (Thu) Last update Trasnlated by damesukekun Title RIP=RELEASE Lyric ah, the faucet is running the water no single word we say ah, I knew I hurt myself if I was with you I couldn t leave but be with you I should have broken all rather than asking your affair! Even if I overflow tears many times, pains can never be my friend If I could rip and release your throat, I would keep you to myself... ah, I can t believe your words of love I can t believe your promise of love The heartbeat throbs faster I can t control the throbs at all! I ve already known the answer in the brain, but my whole mind rejects all of it Should I stand all the anxiety, irritation, sorrow and misery? Never touch my strained chord Don t tell me a shallow lie for a comfort I hold out my hands for your love but you are no longer there Even if I overflow tears many times, pains can never be my friend I wanna rip and release your throat right now and I could keep you yourself to myself, only to myself! Comment If you have any advise or opinion for this post please write here.この投稿に対して助言、ご意見などありましたらこちらに書き込んで下さい。 Name Comment すべてのコメントを見る
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海は私たちの母である。 川を乗り越えても海は乗り越えられるかい?。 千波万波 難易度★★★★★★(6.0) クエストで1-5章を請ける。 敵が1-4章のちょいピリカラ。 今回は常にHPやMPが減ったり状態異常になったりはしない。 だけど・・・クリアできるんかのぉ? 今回のステージはすごく詰むよ! 元ネタ(?) 「Ocean」 海洋。 「Last first chapter」 最後の一章。 「千波万波」 休み無く(絶え間なく)押し寄せてくる波。 ボスは「フレッケリ」(Fleckeri) 実際は最も強い毒を持つ海月、「キロネックス・フレッケリ」を元にしたんだけどねぇ・・・ ああ、いや、なんでもない。 攻略のコツとかがあったら・・・ これは確かにつらいもはや運しだいだそう生んが悪いと強い人でも死ぬかも…!?(どれも助けてもらうのが一番というのもあるがそれは言わない…(ぇ -- なかゆう (2011-08-13 20 28 00) 意識不明になる→治る→すぐ意識不明になる→なぶられる→オワタ のパターンにさえハマらなければ大丈夫!( -- おかか (2011-08-14 16 57 06) 名前 コメント
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GENRE TITLE ARTIST bpm notes CLEAR RATE TECH DANCE Release The Music kors k 146 1081 91%(2013/10/26) 攻略・コメント Attack the Musicのオマージュ? -- XXX (2011-09-28 21 07 49) 乱打と12分縦連→トリル気味の乱打→皿絡み乱打→回復。終盤の皿絡みは叩きにくいと感じたら乱で。 -- 名無しさん (2011-10-11 09 50 28) この曲大好きなんだけど...難易度帯的にも、目立ちにくいのがなあ -- 名無しさん (2013-11-11 17 24 36) トリル気味の乱打と皿絡みのところが勝負。削られすぎると、回復が追いつかなくなります。どうでもいいけど、この曲CNの要素無いよね?属性のところに書いてあったけど。 -- 名無しさん (2014-04-27 18 59 50) 曲も譜面も5鍵ぽさが強くて、いいね。 譜面は最後に回復があるので、楽だと思われる。 -- 名無しさん (2014-07-22 18 09 38) 難落ちた 所々でポロポロこぼしやすい -- 九段 (2016-03-06 21 46 44) EXHはちょくちょく来る縦連に注意。 -- 名無しさん (2016-08-25 22 16 52) 前半は12分縦連、後半は細かい皿とハード以上だと削られやすいポイントがいくつかある。ただ、全体的には叩く音が分かりやすい楽しい乱打譜面。ノマゲは10がある程度埋まってきた辺りの人なら安定させられるはず -- 名無しさん (2017-07-09 21 10 12) 皿絡みと微縦連が多少目立ち、途中から休みなしの乱打になるので、☆10の中ではハードはすこし詐称気味かも。 -- 名無しさん (2018-04-18 16 47 53) 名前 コメント
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The story below is originally published on Mainichi Daily News by Mainichi Shinbun (http //mdn.mainichi.jp). They admitted inventing its kinky features, or rather deliberately mistranslating them from the original gossip magazine. In fact, this is far from the general Japanese behavior or sense of worth. このページは、毎日新聞事件の検証のための配信記事対訳ページです。直接ジャンプして来られた方は、必ずFAQをお読みください。 ※ この和訳はあくまでもボランティアの方々による一例であり、翻訳の正確さについては各自判断してください。もし誤訳(の疑い)を発見した場合には、直接ページを編集して訂正するか翻訳者連絡掲示板に報告してください。 The ethics of 'borrowing' in the Japanese pop industryパクリは正しい!? 関連情報 元資料 関連ページ The ethics of borrowing in the Japanese pop industry 日本のポップミュージック産業での「借用」の倫理観 パクリは正しい!? (*1) パクリは正しい!? 1995,10,29 The ethics of borrowing in the Japanese pop industry 日本のポップミュージック産業での「借用」の倫理観 Bart 26/10 タケシ イトウ Is stealing acceptable? The answer seems definitely no in all places except the world of Japanese pop, where stolen ideas have produced little controversy. 盗みは容認されるのか? 盗まれたアイデアが、ほとんど論争を呼びもせずにプロデュースされる日本のポップミュージック界を除いた全ての場所では、答えは いいえ だと決まりきっているように思えます。 Bart tries to understand why Japan s pop composers show no qualms about copying or borrowing from their resourceful Western counterparts. BARTは、日本のポップミュージック作曲者は何故、才能ある西洋の作曲家を まねたり、彼らから拝借したりすることに良心の呵責を一切見せないのかを理解しようとします。 At the beginning of the article,the magazine reminds the naive reader that recent hits by Mr.Children and Kenji Ozawa sound suspiciously similar to compositions by Elvis Costello and Eric Claption,respectively. 記事の冒頭で、この雑誌は世間知らずな読者に、最近ヒットしたMr.childrenと小沢健二は、それぞれエルビス・コステロとエリック・クラプトン(*2)の楽曲に、疑わしいくらい似て聞こえると気づかせています。 According to Bart,there are some shameless Japanese rock artists who copy a whole tune, make small changes and call the result their originals. But others are less conscious. BARTによると、楽曲を丸ごとコピーしたり、少し変えて、できたものを自分のオリジナルだと呼ぶ恥知らずな日本のロックアーティストが何人かいるそうです。 けれど、他の人間は更に自覚が無いんです。 They end up sounding like The Kinks or Paul McCartney because they love and listen to these idols again and again. 彼らは結局、ザ・キンクスやポール・マッカートニーに似た音楽に落ち着きます。彼らはそれを愛しているし、その崇拝する音楽を何度も反復して聴くからです。 Hip hop artists are more open about their sampling habit. In fact, they "quote" rather than steal. ヒップホップアーティストは、サンプリングする習慣について、もっとあけっぴろげです。 実際、彼らは盗むというよりはむしろ、『引用』します。 "Hip hop is a kind of music which is equipped with a system for showing respect for sampling sources," explains Seiko Ito,one of Japan s oldest rappers. 「ヒップホップはサンプリングする情報源への尊敬を示すための仕組みを備えた種類の音楽です」日本の古参ラッパーの一人である、いとうせいこう は説明します。 "Some(Japanese) rock musicians,on the other hand,steal the essence and atmosphere of songs they like to duplicate. I don t think they are creative." Ito tells Bart that hip hop artists steal ideas they like and say so,instead of hiding the fact. 「他方では、何人かの(日本人の)ロックミュージシャンは、複製したい歌の本質とムードを盗みます。 創造的だとは思えませんね」 ヒップホップアーティストは気に入ったアイデアを盗んで、その事実を隠しもせずに公言するのだといとう はBARTに語ります。 Ito suggests that sampling is so easy that musicians are beginning to feel it is useless to work hard to compose new melodies that often do not compare with existing masterpieces. サンプリングすることは本当に簡単だから、ミュージシャンは、苦労して取り組んで、今ある最高傑作と大抵は張り合えはしない 新しい音楽を作曲することは無駄だと感じ始めているのだと、いとう は提言しています。 "There is no musical genius in our age," Ito points out. "So,it s best for us to enjoy the work of ace stealers." Bart agrees with Ito. 「私たちの世代には、音楽の天才はいません」いとう は指摘します。 「だから、盗人のエースとして働くことを楽しむのが、私たちにとっては最善なんです」 BARTは いとう に賛同します。 The magazine goes on to suggest that decoding of sampled phrases and rhythm patterns gives listeners the fundamental human pleasure of calling something back from the remotest corners of memory. サンプリングされたフレーズとリズムパターンを聴き解くことは、記憶の最奥の片隅にある思い出を呼び覚ますという、人間には欠かせないない歓びをリスナーに与える のだと、この雑誌は提言を続けます。 But most Westerners are not as forgiving as Bart or Ito. To illustrate this, the magazine listens to the opinion of Peter Barakan,a broadcaster-music journalist living in Tokyo. しかし西洋人のほとんどは、Bartやイトウほど寛容なわけではありません。 これを例証するために、この雑誌は東京に住むブロードキャスターであり音楽評論家でもある、ピーター・バラカンの意見を聞きました。 He feels that stealing constitutes a crime. He also observes that Japanese musicians seem to feel it is OK for them to steal ideas because "everyone is doing it" and "most listeners will never find it out." 彼は、盗みは罪になると感じています。 日本のミュージシャンは「みんなやってるから」「ほとんどのリスナーには決して解らないだろうから」、アイデアを盗むことは構わないのだと感じているように見えるとも述べています。 Barakan says that he has always been aware of those Japanese songs that sound dubiously familiar to his English ears since he arrived here 20 years ago. 20年前に日本にやって来た時から常に、日本の歌は彼の英国製の耳に、疑わしいくらい馴染んで聞こえることに気づいているのだとバラカンは言います。 The Briton,who is no more taken by surprise by such songs,feels that the growing practice of sampling is a contributing factor,but more significantly stealing continues unabated because both creators and listeners consider stealing normal and don t attach high value to originality.(TI) こういった歌に、もはやこれ以上驚かされはしないこのイギリス人は、サンプリングの習慣が広まっていることは一因ではあるが、盗みが衰えずにさらに著しく続けられる訳は、クリエイターとリスナーの両方が、クリエイターとリスナーの両方が、盗みは普通のことだと考え、独創性に高い価値を付けないことなのだろうと感じています。(タケシ イトウ) 関連情報 BART 雑誌(Wikipedia) http //ja.wikipedia.org/wiki/BART_(%E9%9B%91%E8%AA%8C) いとうせいこう(Wikipedia) http //ja.wikipedia.org/wiki/%E3%81%84%E3%81%A8%E3%81%86%E3%81%9B%E3%81%84%E3%81%93%E3%81%86 ピーター・バラカン(Wikipedia) http //ja.wikipedia.org/wiki/%E3%83%94%E3%83%BC%E3%82%BF%E3%83%BC%E3%83%BB%E3%83%90%E3%83%A9%E3%82%AB%E3%83%B3 元資料 関連ページ 紙媒体MDN時代のwaiwaiタイトル1995年
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THE FORCE UNLEASHED Rahm Kota You there, boy? Has the starship been destroyed? I repeat Has the starship been destroyed? Respond. Boy? 大丈夫か坊や!戦艦を破壊したのか?繰り返す、戦艦を破壊したのか?答えろ! Galen Marek Relax, general Kota. I m still here. 落ち着け、将軍。とりあえず生きてる。 Rahm Kota Good... Good. We ll see you back at the ship. よかった…。船で会おうしよう。 Proxy Master? マスター? Galen Marek Proxy? Are you OK? プロキシー、大丈夫か? Proxy Yes, I think so, but I think it may be best if you leave me here... ええ、おそらく…。でも、私はここで置いて行くのがいいと思います…。 Galen Marek What are you talking about? 何を言ってるんだ? Proxy The shockwave... It burned out portions of my processor. My primary programming has been erased. I m useless now. 衝撃波が、プロセッサーをオーバーヒートさせたんです。その時私の基本プログラムが消去されたんですよ。もう私は役立たずです…。 Galen Marek Proxy, you re not staying here. Come on. プロキシー、一緒に船に戻ろう。
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#39 OCEAN OCEAN なりふりかまわず抱きしめて Dear my lovely pain
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ocean_rst.ncの中身 NetCDF-3 Classic ocean_rst.nc { dimensions xi_rho = 199 ; xi_u = 198 ; xi_v = 199 ; xi_psi = 198 ; eta_rho = 149 ; eta_u = 149 ; eta_v = 148 ; eta_psi = 148 ; N = 21 ; s_rho = 21 ; s_w = 22 ; tracer = 2 ; boundary = 4 ; ocean_time = UNLIMITED ; (2 currently) variables // Preference PRESERVE_FVD false, // dimensions consistent with ncBrowse, not with native MATLAB netcdf package. int32 ntimes([]), shape = [1] ntimes long_name = "number of long time-steps" int32 ndtfast([]), shape = [1] ndtfast long_name = "number of short time-steps" double dt([]), shape = [1] dt long_name = "size of long time-steps" dt units = "second" double dtfast([]), shape = [1] dtfast long_name = "size of short time-steps" dtfast units = "second" double dstart([]), shape = [1] dstart long_name = "time stamp assigned to model initilization" dstart units = "days since 0001-01-01 00 00 00" dstart calendar = "julian" int32 nHIS([]), shape = [1] nHIS long_name = "number of time-steps between history records" int32 ndefHIS([]), shape = [1] ndefHIS long_name = "number of time-steps between the creation of history files" int32 nRST([]), shape = [1] nRST long_name = "number of time-steps between restart records" nRST cycle = "only latest two records are maintained" int32 ntsAVG([]), shape = [1] ntsAVG long_name = "starting time-step for accumulation of time-averaged fields" int32 nAVG([]), shape = [1] nAVG long_name = "number of time-steps between time-averaged records" int32 ndefAVG([]), shape = [1] ndefAVG long_name = "number of time-steps between the creation of average files" int32 ntsDIA([]), shape = [1] ntsDIA long_name = "starting time-step for accumulation of diagnostic fields" int32 nDIA([]), shape = [1] nDIA long_name = "number of time-steps between diagnostic records" int32 ndefDIA([]), shape = [1] ndefDIA long_name = "number of time-steps between the creation of diagnostic files" double Falpha([]), shape = [1] Falpha long_name = "Power-law shape barotropic filter parameter" double Fbeta([]), shape = [1] Fbeta long_name = "Power-law shape barotropic filter parameter" double Fgamma([]), shape = [1] Fgamma long_name = "Power-law shape barotropic filter parameter" double nl_tnu2(tracer), shape = [2] nl_tnu2 long_name = "nonlinear model Laplacian mixing coefficient for tracers" nl_tnu2 units = "meter2 second-1" double nl_visc2([]), shape = [1] nl_visc2 long_name = "nonlinear model Laplacian mixing coefficient for momentum" nl_visc2 units = "meter2 second-1" double Akt_bak(tracer), shape = [2] Akt_bak long_name = "background vertical mixing coefficient for tracers" Akt_bak units = "meter2 second-1" double Akv_bak([]), shape = [1] Akv_bak long_name = "background vertical mixing coefficient for momentum" Akv_bak units = "meter2 second-1" double Akk_bak([]), shape = [1] Akk_bak long_name = "background vertical mixing coefficient for turbulent energy" Akk_bak units = "meter2 second-1" double Akp_bak([]), shape = [1] Akp_bak long_name = "background vertical mixing coefficient for length scale" Akp_bak units = "meter2 second-1" double rdrg([]), shape = [1] rdrg long_name = "linear drag coefficient" rdrg units = "meter second-1" double rdrg2([]), shape = [1] rdrg2 long_name = "quadratic drag coefficient" double Zob([]), shape = [1] Zob long_name = "bottom roughness" Zob units = "meter" double Zos([]), shape = [1] Zos long_name = "surface roughness" Zos units = "meter" double gls_p([]), shape = [1] gls_p long_name = "stability exponent" double gls_m([]), shape = [1] gls_m long_name = "turbulent kinetic energy exponent" double gls_n([]), shape = [1] gls_n long_name = "turbulent length scale exponent" double gls_cmu0([]), shape = [1] gls_cmu0 long_name = "stability coefficient" double gls_c1([]), shape = [1] gls_c1 long_name = "shear production coefficient" double gls_c2([]), shape = [1] gls_c2 long_name = "dissipation coefficient" double gls_c3m([]), shape = [1] gls_c3m long_name = "buoyancy production coefficient (minus)" double gls_c3p([]), shape = [1] gls_c3p long_name = "buoyancy production coefficient (plus)" double gls_sigk([]), shape = [1] gls_sigk long_name = "constant Schmidt number for TKE" double gls_sigp([]), shape = [1] gls_sigp long_name = "constant Schmidt number for PSI" double gls_Kmin([]), shape = [1] gls_Kmin long_name = "minimum value of specific turbulent kinetic energy" double gls_Pmin([]), shape = [1] gls_Pmin long_name = "minimum Value of dissipation" double Charnok_alpha([]), shape = [1] Charnok_alpha long_name = "Charnok factor for surface roughness" double Zos_hsig_alpha([]), shape = [1] Zos_hsig_alpha long_name = "wave amplitude factor for surface roughness" double sz_alpha([]), shape = [1] sz_alpha long_name = "surface flux from wave dissipation" double CrgBan_cw([]), shape = [1] CrgBan_cw long_name = "surface flux due to Craig and Banner wave breaking" double wec_alpha([]), shape = [1] wec_alpha long_name = "coefficient for roller/breaking wave dissipation" double Znudg([]), shape = [1] Znudg long_name = "free-surface nudging/relaxation inverse time scale" Znudg units = "day-1" double M2nudg([]), shape = [1] M2nudg long_name = "2D momentum nudging/relaxation inverse time scale" M2nudg units = "day-1" double M3nudg([]), shape = [1] M3nudg long_name = "3D momentum nudging/relaxation inverse time scale" M3nudg units = "day-1" double Tnudg(tracer), shape = [2] Tnudg long_name = "Tracers nudging/relaxation inverse time scale" Tnudg units = "day-1" double rho0([]), shape = [1] rho0 long_name = "mean density used in Boussinesq approximation" rho0 units = "kilogram meter-3" double gamma2([]), shape = [1] gamma2 long_name = "slipperiness parameter" char spherical([]), shape = [1] spherical long_name = "grid type logical switch" spherical flag_values = "T, F" spherical flag_meanings = "spherical Cartesian" double xl([]), shape = [1] xl long_name = "domain length in the XI-direction" xl units = "meter" double el([]), shape = [1] el long_name = "domain length in the ETA-direction" el units = "meter" int32 Vtransform([]), shape = [1] Vtransform long_name = "vertical terrain-following transformation equation" int32 Vstretching([]), shape = [1] Vstretching long_name = "vertical terrain-following stretching function" double theta_s([]), shape = [1] theta_s long_name = "S-coordinate surface control parameter" double theta_b([]), shape = [1] theta_b long_name = "S-coordinate bottom control parameter" double Tcline([]), shape = [1] Tcline long_name = "S-coordinate surface/bottom layer width" Tcline units = "meter" double hc([]), shape = [1] hc long_name = "S-coordinate parameter, critical depth" hc units = "meter" double s_rho(s_rho), shape = [21] s_rho long_name = "S-coordinate at RHO-points" s_rho valid_min = -1 s_rho valid_max = 0 s_rho positive = "up" s_rho standard_name = "ocean_s_coordinate_g1" s_rho formula_terms = "s s_rho C Cs_r eta zeta depth h depth_c hc" s_rho field = "s_rho, scalar" double s_w(s_w), shape = [22] s_w long_name = "S-coordinate at W-points" s_w valid_min = -1 s_w valid_max = 0 s_w positive = "up" s_w standard_name = "ocean_s_coordinate_g1" s_w formula_terms = "s s_w C Cs_w eta zeta depth h depth_c hc" s_w field = "s_w, scalar" double Cs_r(s_rho), shape = [21] Cs_r long_name = "S-coordinate stretching curves at RHO-points" Cs_r valid_min = -1 Cs_r valid_max = 0 Cs_r field = "Cs_r, scalar" double Cs_w(s_w), shape = [22] Cs_w long_name = "S-coordinate stretching curves at W-points" Cs_w valid_min = -1 Cs_w valid_max = 0 Cs_w field = "Cs_w, scalar" double h(eta_rho,xi_rho), shape = [149 199] h long_name = "bathymetry at RHO-points" h units = "meter" h coordinates = "x_rho y_rho" h field = "bath, scalar" double f(eta_rho,xi_rho), shape = [149 199] f long_name = "Coriolis parameter at RHO-points" f units = "second-1" f coordinates = "x_rho y_rho" f field = "coriolis, scalar" double pm(eta_rho,xi_rho), shape = [149 199] pm long_name = "curvilinear coordinate metric in XI" pm units = "meter-1" pm coordinates = "x_rho y_rho" pm field = "pm, scalar" double pn(eta_rho,xi_rho), shape = [149 199] pn long_name = "curvilinear coordinate metric in ETA" pn units = "meter-1" pn coordinates = "x_rho y_rho" pn field = "pn, scalar" double x_rho(eta_rho,xi_rho), shape = [149 199] x_rho long_name = "x-locations of RHO-points" x_rho units = "meter" x_rho field = "x_rho, scalar" double y_rho(eta_rho,xi_rho), shape = [149 199] y_rho long_name = "y-locations of RHO-points" y_rho units = "meter" y_rho field = "y_rho, scalar" double x_u(eta_u,xi_u), shape = [149 198] x_u long_name = "x-locations of U-points" x_u units = "meter" x_u field = "x_u, scalar" double y_u(eta_u,xi_u), shape = [149 198] y_u long_name = "y-locations of U-points" y_u units = "meter" y_u field = "y_u, scalar" double x_v(eta_v,xi_v), shape = [148 199] x_v long_name = "x-locations of V-points" x_v units = "meter" x_v field = "x_v, scalar" double y_v(eta_v,xi_v), shape = [148 199] y_v long_name = "y-locations of V-points" y_v units = "meter" y_v field = "y_v, scalar" double x_psi(eta_psi,xi_psi), shape = [148 198] x_psi long_name = "x-locations of PSI-points" x_psi units = "meter" x_psi field = "x_psi, scalar" double y_psi(eta_psi,xi_psi), shape = [148 198] y_psi long_name = "y-locations of PSI-points" y_psi units = "meter" y_psi field = "y_psi, scalar" double mask_rho(eta_rho,xi_rho), shape = [149 199] mask_rho long_name = "mask on RHO-points" mask_rho flag_values = 0 1 mask_rho flag_meanings = "land water" mask_rho coordinates = "x_rho y_rho" double mask_u(eta_u,xi_u), shape = [149 198] mask_u long_name = "mask on U-points" mask_u flag_values = 0 1 mask_u flag_meanings = "land water" mask_u coordinates = "x_u y_u" double mask_v(eta_v,xi_v), shape = [148 199] mask_v long_name = "mask on V-points" mask_v flag_values = 0 1 mask_v flag_meanings = "land water" mask_v coordinates = "x_v y_v" double mask_psi(eta_psi,xi_psi), shape = [148 198] mask_psi long_name = "mask on psi-points" mask_psi flag_values = 0 1 mask_psi flag_meanings = "land water" mask_psi coordinates = "x_psi y_psi" double ocean_time(ocean_time), shape = [2] ocean_time long_name = "time since initialization" ocean_time units = "seconds since 0001-01-01 00 00 00" ocean_time calendar = "julian" ocean_time field = "time, scalar, series" double zeta(ocean_time,eta_rho,xi_rho), shape = [2 149 199] zeta long_name = "free-surface" zeta units = "meter" zeta time = "ocean_time" zeta coordinates = "x_rho y_rho ocean_time" zeta field = "free-surface, scalar, series" zeta _FillValue = 1e+037 double ubar(ocean_time,eta_u,xi_u), shape = [2 149 198] ubar long_name = "vertically integrated u-momentum component" ubar units = "meter second-1" ubar time = "ocean_time" ubar coordinates = "x_u y_u ocean_time" ubar field = "ubar-velocity, scalar, series" ubar _FillValue = 1e+037 double vbar(ocean_time,eta_v,xi_v), shape = [2 148 199] vbar long_name = "vertically integrated v-momentum component" vbar units = "meter second-1" vbar time = "ocean_time" vbar coordinates = "x_v y_v ocean_time" vbar field = "vbar-velocity, scalar, series" vbar _FillValue = 1e+037 double u(ocean_time,s_rho,eta_u,xi_u), shape = [2 21 149 198] u long_name = "u-momentum component" u units = "meter second-1" u time = "ocean_time" u coordinates = "x_u y_u s_rho ocean_time" u field = "u-velocity, scalar, series" u _FillValue = 1e+037 double v(ocean_time,s_rho,eta_v,xi_v), shape = [2 21 148 199] v long_name = "v-momentum component" v units = "meter second-1" v time = "ocean_time" v coordinates = "x_v y_v s_rho ocean_time" v field = "v-velocity, scalar, series" v _FillValue = 1e+037 double temp(ocean_time,s_rho,eta_rho,xi_rho), shape = [2 21 149 199] temp long_name = "potential temperature" temp units = "Celsius" temp time = "ocean_time" temp coordinates = "x_rho y_rho s_rho ocean_time" temp field = "temperature, scalar, series" temp _FillValue = 1e+037 double salt(ocean_time,s_rho,eta_rho,xi_rho), shape = [2 21 149 199] salt long_name = "salinity" salt time = "ocean_time" salt coordinates = "x_rho y_rho s_rho ocean_time" salt field = "salinity, scalar, series" salt _FillValue = 1e+037 double rho(ocean_time,s_rho,eta_rho,xi_rho), shape = [2 21 149 199] rho long_name = "density anomaly" rho units = "kilogram meter-3" rho time = "ocean_time" rho coordinates = "x_rho y_rho s_rho ocean_time" rho field = "density, scalar, series" rho _FillValue = 1e+037 double AKv(ocean_time,s_w,eta_rho,xi_rho), shape = [2 22 149 199] AKv long_name = "vertical viscosity coefficient" AKv units = "meter2 second-1" AKv time = "ocean_time" AKv coordinates = "x_rho y_rho s_w ocean_time" AKv field = "AKv, scalar, series" AKv _FillValue = 1e+037 double AKt(ocean_time,s_w,eta_rho,xi_rho), shape = [2 22 149 199] AKt long_name = "temperature vertical diffusion coefficient" AKt units = "meter2 second-1" AKt time = "ocean_time" AKt coordinates = "x_rho y_rho s_w ocean_time" AKt field = "AKt, scalar, series" AKt _FillValue = 1e+037 double AKs(ocean_time,s_w,eta_rho,xi_rho), shape = [2 22 149 199] AKs long_name = "salinity vertical diffusion coefficient" AKs units = "meter2 second-1" AKs time = "ocean_time" AKs coordinates = "x_rho y_rho s_w ocean_time" AKs field = "AKs, scalar, series" AKs _FillValue = 1e+037 double grain_diameter(ocean_time,eta_rho,xi_rho), shape = [2 149 199] grain_diameter long_name = "sediment median grain diameter size" grain_diameter units = "meter" grain_diameter time = "ocean_time" grain_diameter coordinates = "x_rho y_rho ocean_time" grain_diameter field = "grain_diameter, scalar, series" grain_diameter _FillValue = 1e+037 double grain_density(ocean_time,eta_rho,xi_rho), shape = [2 149 199] grain_density long_name = "sediment median grain density" grain_density units = "kilogram meter3" grain_density time = "ocean_time" grain_density coordinates = "x_rho y_rho ocean_time" grain_density field = "grain_density, scalar, series" grain_density _FillValue = 1e+037 double settling_vel(ocean_time,eta_rho,xi_rho), shape = [2 149 199] settling_vel long_name = "sediment median grain settling velocity" settling_vel units = "meter second-1" settling_vel time = "ocean_time" settling_vel coordinates = "x_rho y_rho ocean_time" settling_vel field = "settling_vel, scalar, series" settling_vel _FillValue = 1e+037 double erosion_stress(ocean_time,eta_rho,xi_rho), shape = [2 149 199] erosion_stress long_name = "sediment median critical erosion stress" erosion_stress units = "newton meter-2" erosion_stress time = "ocean_time" erosion_stress coordinates = "x_rho y_rho ocean_time" erosion_stress field = "erosion_stress, scalar, series" erosion_stress _FillValue = 1e+037 double ripple_length(ocean_time,eta_rho,xi_rho), shape = [2 149 199] ripple_length long_name = "bottom ripple length" ripple_length units = "meter" ripple_length time = "ocean_time" ripple_length coordinates = "x_rho y_rho ocean_time" ripple_length field = "ripple_length, scalar, series" ripple_length _FillValue = 1e+037 double ripple_height(ocean_time,eta_rho,xi_rho), shape = [2 149 199] ripple_height long_name = "bottom ripple height" ripple_height units = "meter" ripple_height time = "ocean_time" ripple_height coordinates = "x_rho y_rho ocean_time" ripple_height field = "ripple_height, scalar, series" ripple_height _FillValue = 1e+037 double ubar_stokes(ocean_time,eta_u,xi_u), shape = [2 149 198] ubar_stokes long_name = "vertically-integrated u-Stokes drift velocity" ubar_stokes units = "meter second-1" ubar_stokes time = "ocean_time" ubar_stokes coordinates = "x_u y_u ocean_time" ubar_stokes field = "ubar_stokes-velocity, scalar, series" ubar_stokes _FillValue = 1e+037 double vbar_stokes(ocean_time,eta_v,xi_v), shape = [2 148 199] vbar_stokes long_name = "vertically-integrated v-Stokes drift velocity" vbar_stokes units = "meter second-1" vbar_stokes time = "ocean_time" vbar_stokes coordinates = "x_v y_v ocean_time" vbar_stokes field = "vbar_stokes, scalar, series" vbar_stokes _FillValue = 1e+037 double u_stokes(ocean_time,s_rho,eta_u,xi_u), shape = [2 21 149 198] u_stokes long_name = "u-Stokes drift velocity" u_stokes units = "meter second-1" u_stokes time = "ocean_time" u_stokes coordinates = "x_u y_u s_rho ocean_time" u_stokes field = "u_stokes, scalar, series" u_stokes _FillValue = 1e+037 double v_stokes(ocean_time,s_rho,eta_v,xi_v), shape = [2 21 148 199] v_stokes long_name = "v-Stokes drift velocity" v_stokes units = "meter second-1" v_stokes time = "ocean_time" v_stokes coordinates = "x_v y_v s_rho ocean_time" v_stokes field = "v_stokes, scalar, series" v_stokes _FillValue = 1e+037 double omega_stokes(ocean_time,s_w,eta_rho,xi_rho), shape = [2 22 149 199] omega_stokes long_name = "S-coordinate vertical drift velocity" omega_stokes units = "meter3 second-1" omega_stokes time = "ocean_time" omega_stokes coordinates = "x_rho y_rho s_w ocean_time" omega_stokes field = "omega_stokes, scalar, series" omega_stokes _FillValue = 1e+037 double w_stokes(ocean_time,s_w,eta_rho,xi_rho), shape = [2 22 149 199] w_stokes long_name = "w-Stokes vertical drift velocity" w_stokes units = "meter second-1" w_stokes time = "ocean_time" w_stokes coordinates = "x_rho y_rho s_w ocean_time" w_stokes field = "w_stokes, scalar, series" w_stokes _FillValue = 1e+037 file = "ocean_rst.nc" format = "netCDF-3 classic file" Conventions = "CF-1.0" type = "ROMS/TOMS restart file" title = "Idealized Coastal shelf" rst_file = "ocean_rst.nc" avg_file = "ocean_avg.nc" dia_file = "ocean_dia.nc" grd_file = "Projects/JOE_TCs/joe_tc_grd.nc" ini_file = "Projects/JOE_TCs/joe_tc_ocean_init.nc" script_file = "Projects/JOE_TCs/ocean_joe_tc.in" svn_url = "https //www.myroms.org/svn/omlab/branches/jcwarner" svn_rev = "" code_dir = "/home2/tracey/src/COAWST/3.0-pgi-mpich2" header_dir = "/home2/tracey/src/COAWST/3.0-pgi-mpich2/Projects/JOE_TCs" header_file = "joe_tc.h" os = "Linux" cpu = "x86_64" compiler_system = "pgi" compiler_command = "/opt/mpich2-pgi/bin/mpif90" compiler_flags = " -fastsse -Mipa=fast -tp k8-64 -Mfree" tiling = "001x001" history = "ROMS/TOMS, Version 3.4, Friday - April 22, 2011 - 3 34 15 PM" ana_file = "ROMS/Functionals/ana_btflux.h, ROMS/Functionals/ana_stflux.h" CPP_options = "JOE_TC, ATM_PRESS, ANA_BSFLUX, ANA_BTFLUX, ANA_SSFLUX, ASSUMED_SHAPE, ATM2OCN_FLUXE AVERAGES, COARE_TAYLOR_YELLAND, DIAGNOSTICS_TS, DIAGNOSTICS_UV, DJ_GRADPS, DOUBLE_PRECISION, EASTERN_WALL, GLS_MIXING, KANTHA_CLAYSON, MASKING, MCT_LIB, MIX_GEO_TS, MIX_S_UV, MPI, WEC_VF, NONLINEAR, NONLIN_EOS, NORTHERN_WALL, N2S2_HORAVG, POWER_LAW, PROFILE, K_GSCHEME, !RST_SINGLE, SALINITY, SOLVE3D, SOUTHERN_WALL, SPLINES, SSW_BBL, SSW_CALC_ZNOT, SWAN_COUPLING, TS_U3HADVECTION, TS_C4VADVECTION, TS_DIF2, UV_ADV, UV_COR, UV_U3HADVECTION, UV_C4VADVECTION, UV_VIS2, VAR_RHO_2D, WAVES_OCEAN, WESTERN_WALL, WRF_COUPLING, EAST_M2SCLOSED - DEFAULT -, WEST_M2SCLOSED - DEFAULT -, NORTH_M2SCLOSED - DEFAULT -, SOUTH_M2SCLOSED - DEFAULT -, EAST_M3SCLOSED - DEFAULT -, WEST_M3SCLOSED - DEFAULT -, NORTH_M3SCLOSED - DEFAULT -, SOUTH_M3SCLOSED - DEFAULT -" }
https://w.atwiki.jp/compass-magazine/pages/57.html
THE 9 FAR EAST 活動場所 大阪 プロフィール The 9 Far East(ザ・ナイン・ファー・イースト)は、Moggy(モギー)とDail(ダイル)による大阪の2MCユニットで、2005年にファーストアルバム「Drive U Crazy」をリリースしています。 by HIPHOP GUIDE.jp MOGGY と DAIL の2MCから成るユニット、THE 9 FAR EAST。2002年の結成以降、自主制作 でのリリースを続けていたが、2005年11月、デビュー・アルバム 『DRIVE U CRAZY』 を発表。 ディスコグラフィー アルバム 2006/11/10 "DRIVE U CRAZY"【Street Promotion】¥2,100
https://w.atwiki.jp/akatonbowiki/pages/8317.html
このページはこちらに移転しました The empty ocean 作詞/にんぢん 上から下まで真っ青の中 下を覗けば海の中 上から降ってる真っ黒な雨 下を覗くの躊躇った お船は進む どんどん進む どんどん進んで どんどん沈む 日はまた昇る どんどん昇る どんどん昇って 海にポチャン 上から下まで真っ暗闇で 下を覗けば真っ暗で 上から降ってる光の原子 下に落ちるの躊躇った 上から下まで真っ白で 下を覗けば色は無く 上から降ってる真っ白い雨 気付いたことを忘れてった
https://w.atwiki.jp/mtg_gms/pages/123.html
LRW Release League #1(2007/11/4開催) tockrock使用デッキ 黒緑です。 緑にいいレアがあったので、使ってみようと。エルフとツリーフォークでうまくシナジーをしたいところ。序盤に出せるクリーチャーと決めるようなクリーチャーといたけど、中盤でふんばってくれるクリーチャーがいなかった。2色だったから、クリーチャー総数も少なかったしね。 Deck 1 Fertile Ground 8 Forest 7 Swamp 1 Black Poplar Shaman 1 Dread 1 Elvish Branchbender 1 Elvish Eulogist 1 Elvish Harbinger 1 Footbottom Feast 1 Hornet Harasser 1 Immaculate Magistrate 1 Kithkin Daggerdare 1 Lace with Moonglove 1 Leaf Gilder 1 Lignify 1 Lys Alana Huntmaster 1 Makeshift Mannequin 1 Prowess of the Fair 1 Rootgrapple 1 Runed Stalactite 1 Scarred Vinebreeder 1 Shimmering Grotto 1 Skeletal Changeling 1 Timber Protector 1 Wanderer's Twig 1 Weed Strangle 1 Woodland Changeling Sideboard 6 Island 6 Mountain 6 Plains 1 Adder-Staff Boggart 1 Amoeboid Changeling 1 Ashling the Pilgrim 1 Axegrinder Giant 1 Blades of Velis Vel 1 Boggart Loggers 1 Boggart Sprite-Chaser 1 Bog Hoodlums 1 Cenn's Heir 1 Cloudgoat Ranger 1 Consuming Bonfire 1 Crush Underfoot 1 Deeptread Merrow 1 Drowner of Secrets 1 Ego Erasure 1 Entangling Trap 1 Facevaulter 1 Faerie Harbinger 1 Fire-Belly Changeling 1 Flamekin Harbinger 1 Glarewielder 1 Glen Elendra Pranksters 1 Goldmeadow Dodger 1 Guardian of Cloverdell 1 Harpoon Sniper 1 Heat Shimmer 1 Inner-Flame Acolyte 1 Kinsbaile Balloonist 1 Kinsbaile Skirmisher 1 Kithkin Greatheart 1 Kithkin Healer 1 Lash Out 1 Lowland Oaf 1 Mulldrifter 1 Neck Snap 1 Oblivion Ring 1 Pestermite 1 Ponder 1 Protective Bubble 2 Ringskipper 1 Shields of Velis Vel 1 Silvergill Douser 1 Springjack Knight 1 Tar Pitcher 1 Thieving Sprite 1 Veteran of the Depths 1 Warren-Scourge Elf 1 Whirlpool Whelm 1 Wings of Velis Vel