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《甄嬛传之躺赢人生》玉蕊檀心梅 ^第61章^ 最新更新...

度小视
2024-12-13 04:21:48

3、边缘算力堪称础滨触及万千场景的“毛细血管”

2024年12月13日,在这样的动态环境中,防浪板能够有效分散液体的冲击力,避免液体在惯性作用下对罐体产生巨大压力,甚至防止液体涌出,保障了运输途中的安全。

《甄嬛传之躺赢人生》玉蕊檀心梅 ^第61章^ 最新更新...

当然问界和小米6月在市场上的表现确实没有辜负期望只不过在公布销量时要么没有具体销量数字要么没有细化到哪家品牌两家都显得有些过于谦虚了

毫无疑问,直播赛道已经是全员参与模式,不少房企甚至有24小时直播,疯狂“卷”起来了。但是,单纯拼直播时长并不是提高获客能力的好手段,如何提升直播的内容质量才是关键。舞台上,他总能以敏锐的洞察力捕捉到观众的笑点,用幽默的话语化解尴尬,让每一场节目都充满欢声笑语。李咏,这个名字,几乎成了那个时代电视荧幕上的代名词。

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birushuodiyunba,tajingliliaoshehuideduda,jiusiyisheng,zaoyikantouliaoshishirenxin。yijingbuxianggenrenjiechu,buxianggenshehuijiechuliao。jiuxiangxianzaidetangpingdashen,zaoyimingbailiaonulimeiyoushimeyongchu,zijiyigerenyebushewangquqishengziliao,ganyitianrijie,xiuxisantian。yuanchuang2023-12-27 13:46·damengshuoche

词(Ci)语(Yu)|高(Gao)等(Deng)数(Shu)学(Xue)英(Ying)文(Wen)术(Shu)语(Yu)对(Dui)照(Zhao)2018-12-19 10:14·翻(Fan)译(Yi)教(Jiao)学(Xue)与(Yu)研(Yan)究(Jiu)Advanced Mathematical Vocabulary高(Gao)等(Deng)数(Shu)学(Xue)数(Shu)学(Xue)词(Ci)汇(Hui)英(Ying)汉(Han)对(Dui)照(Zhao)表(Biao)Aabscissa, X-coordinate 横(Heng)坐(Zuo)标(Biao)absolute value 绝(Jue)对(Dui)值(Zhi)absolute convergence 绝(Jue)对(Dui)收(Shou)敛(Lian)acceleration 加(Jia)速(Su)度(Du)accumulating point 聚(Ju)点(Dian)accuracy 精(Jing)度(Du)addition, add, sum, summation 和(He),求(Qiu)和(He),加(Jia)法(Fa)adjugate matrix 转(Zhuan)置(Zhi)伴(Ban)随(Sui)阵(Zhen)algebra 代(Dai)数(Shu)algorithm 算(Suan)法(Fa)angle 角(Jiao)antiderivative, primitive function 反(Fan)导(Dao)数(Shu),原(Yuan)函(Han)数(Shu)approach 趋(Qu)近(Jin)arc 弧(Hu)area of a plane region 平(Ping)面(Mian)图(Tu)形(Xing)的(De)面(Mian)积(Ji)area of a plane region bounded by curves 由(You)曲(Qu)面(Mian)围(Wei)成(Cheng)的(De)平(Ping)面(Mian)图(Tu)形(Xing)的(De)面(Mian)积(Ji)area of surface 曲(Qu)面(Mian)面(Mian)积(Ji)assume, assumption 假(Jia)设(She)asteroid 星(Xing)形(Xing)线(Xian)asymptote 渐(Jian)近(Jin)线(Xian)x-axis, y-axis x 轴(Zhou),y 轴(Zhou)auxiliary equation, characteristic equation 辅(Fu)助(Zhu)方(Fang)程(Cheng),特(Te)征(Zheng)方(Fang)程(Cheng)Bbasis 基(Ji)boundary 边(Bian)界(Jie)bounded by 被(Bei)…所(Suo)围(Wei)成(Cheng)boundedness 有(You)界(Jie)性(Xing)Ccalculus 微(Wei)积(Ji)分(Fen)cardioid 心(Xin)脏(Zang)线(Xian)center of gravity 重(Zhong)心(Xin)center of mass 质(Zhi)心(Xin)centroid 形(Xing)心(Xin)chain rule 链(Lian)式(Shi)法(Fa)则(Ze)characteristic root 特(Te)征(Zheng)根(Gen)chord 弦(Xian)circle 圆(Yuan)coefficient 系(Xi)数(Shu)cofactor 代(Dai)数(Shu)余(Yu)子(Zi)式(Shi)column 列(Lie),elementary column transformation (operation) 初(Chu)等(Deng)列(Lie)变(Bian)换(Huan)combination 组(Zu)合(He)comparison test 比(Bi)较(Jiao)判(Pan)别(Bie)法(Fa)complex number 复(Fu)数(Shu)composition of functions 复(Fu)合(He)函(Han)数(Shu)concave, concavity 凹(Ao),凹(Ao)性(Xing)condition 条(Tiao)件(Jian),conditionally convergent 条(Tiao)件(Jian)收(Shou)敛(Lian)confidence interval 置(Zhi)信(Xin)区(Qu)间(Jian)cone 锥(Zhui)面(Mian)conj ugate 共(Gong)轭(Zuo)conjugate complex number 共(Gong)轭(Zuo)复(Fu)数(Shu)conjugate c urve 共(Gong)轭(Zuo)曲(Qu)线(Xian)consistent 相(Xiang)容(Rong)constant 常(Chang)数(Shu)continuous 连(Lian)续(Xu)的(De)contour, level line 等(Deng)值(Zhi)线(Xian),等(Deng)高(Gao)线(Xian)contradiction 矛(Mao)盾(Dun),by contradiction 反(Fan)证(Zheng)法(Fa)convergence, convergent 收(Shou)敛(Lian),convergence test 收(Shou)敛(Lian)性(Xing)判(Pan)别(Bie)法(Fa)convex, convexity 凸(Tu),凸(Tu)性(Xing)coordinate system 坐(Zuo)标(Biao)系(Xi),rectangular/cylindrical/spherical coordinate system 直(Zhi)角(Jiao)/柱(Zhu)面(Mian)/球(Qiu)面(Mian)坐(Zuo)标(Biao)系(Xi),polar coordinate system 极(Ji)坐(Zuo)标(Biao)系(Xi)coordinates of vector 向(Xiang)量(Liang)的(De)坐(Zuo)标(Biao)corollary 推(Tui)论(Lun)Cramer’s Rule 克(Ke)拉(La)默(Mo)法(Fa)则(Ze)cross product (or outer product, vector product) 叉(Cha)积(Ji)(或(Huo)外(Wai)积(Ji)、向(Xiang)量(Liang)积(Ji))cumulant 积(Ji)累(Lei)量(Liang)cumulant generating function 积(Ji)累(Lei)量(Liang)母(Mu)函(Han)数(Shu)curve 曲(Qu)面(Mian)cylinder 柱(Zhu)面(Mian)D(is) defined to be 定(Ding)义(Yi)为(Wei)definite integral 定(Ding)积(Ji)分(Fen)definite integral with variable upper limit 积(Ji)分(Fen)上(Shang)限(Xian)函(Han)数(Shu)definition 定(Ding)义(Yi)denominator 分(Fen)母(Mu)denote, denote to be, denoted by 表(Biao)示(Shi)为(Wei)dependent variable 因(Yin)变(Bian)量(Liang)derivative 导(Dao)数(Shu)determinant 行(Xing)列(Lie)式(Shi)diagonal 对(Dui)角(Jiao)线(Xian),diagonalization of a marix 矩(Ju)阵(Zhen)的(De)对(Dui)角(Jiao)化(Hua)diameter 直(Zhi)径(Jing)dimension 维(Wei),维(Wei)数(Shu)directional angle 方(Fang)向(Xiang)角(Jiao)directional cosines 方(Fang)向(Xiang)余(Yu)弦(Xian)discrete 离(Li)散(San)的(De)disk 圆(Yuan)盘(Pan),圆(Yuan)盘(Pan)闭(Bi)区(Qu)域(Yu)divergent, divergence 发(Fa)散(San)displacement 位(Wei)移(Yi)first/second/nth derivative 一(Yi)阶(Jie)/二(Er)阶(Jie)/n 阶(Jie)导(Dao)数(Shu)right-hand (left-hand) derivative 右(You)(左(Zuo))导(Dao)数(Shu)difference, subtraction, subtract 差(Cha),减(Jian)法(Fa),相(Xiang)减(Jian)differentiable 可(Ke)倒(Dao)的(De),可(Ke)微(Wei)的(De)differential 微(Wei)分(Fen),differential calculus 微(Wei)分(Fen)学(Xue)discontinuity 间(Jian)断(Duan),point of discontinuity 间(Jian)断(Duan)点(Dian)distribution 分(Fen)布(Bu)normal distribution 正(Zheng)态(Tai)分(Fen)布(Bu)Bernoulli distribution 伯(Bo)努(Nu)利(Li)分(Fen)布(Bu)binomial distribution 二(Er)项(Xiang)分(Fen)布(Bu)Poisson distribution 泊(Bo)松(Song)分(Fen)布(Bu)negative binomial distribution 负(Fu)二(Er)项(Xiang)分(Fen)布(Bu)geometric distribution 几(Ji)何(He)分(Fen)布(Bu)hypergeometric distribution 超(Chao)几(Ji)何(He)分(Fen)布(Bu)uniform distribution 均(Jun)匀(Yun)分(Fen)布(Bu)exponential distribution 指(Zhi)数(Shu)分(Fen)布(Bu)Gamma distribution 伽(Zuo)马(Ma)分(Fen)布(Bu)Weibull distribution 韦(Wei)伯(Bo)尔(Er)分(Fen)布(Bu)lognormal distribution 对(Dui)数(Shu)正(Zheng)态(Tai)分(Fen)布(Bu)chi-distribution 卡(Ka)方(Fang)分(Fen)布(Bu)student t-distribution 学(Xue)生(Sheng)t 分(Fen)布(Bu)F-distribution F 分(Fen)布(Bu)division, divide, quotient 除(Chu)法(Fa),相(Xiang)除(Chu),商(Shang)domain, natural domain 定(Ding)义(Yi)域(Yu),自(Zi)然(Ran)定(Ding)义(Yi)域(Yu)dot product (or inner product, scalar product) 点(Dian)积(Ji)(或(Huo)内(Nei)积(Ji)、数(Shu)量(Liang)积(Ji))double product 二(Er)重(Zhong)积(Ji)分(Fen)Eeigenvalue, eigenvector 特(Te)征(Zheng)值(Zhi),特(Te)征(Zheng)向(Xiang)量(Liang)element 元(Yuan)素(Su)elementary transformation 初(Chu)等(Deng)变(Bian)换(Huan)ellipse 椭(Tuo)圆(Yuan)ellipsoid 椭(Tuo)球(Qiu)面(Mian)elliptic cylinder 椭(Tuo)圆(Yuan)柱(Zhu)面(Mian)entry 向(Xiang)量(Liang)的(De)分(Fen)量(Liang),元(Yuan)素(Su)equal, be equal to 相(Xiang)等(Deng),equation 等(Deng)式(Shi)equilibrium 平(Ping)衡(Heng)even function 偶(Ou)函(Han)数(Shu)exclusive 互(Hu)斥(Chi)的(De)mutually exclusive 完(Wan)全(Quan)互(Hu)斥(Chi)expansion 展(Zhan)开(Kai)式(Shi)expectation (expected value) 期(Qi)望(Wang)exponential function 指(Zhi)数(Shu)函(Han)数(Shu)expression 表(Biao)达(Da)式(Shi),express y in terms of x 将(Jiang)y 表(Biao)示(Shi)为(Wei)x 的(De)一(Yi)个(Ge)式(Shi)子(Zi)exterior point 外(Wai)点(Dian)absolute/global extreme values 最(Zui)大(Da)最(Zui)小(Xiao)值(Zhi)relative/local extreme values 极(Ji)值(Zhi)Ffactorial 阶(Jie)乘(Cheng)find, compute, evaluate 计(Ji)算(Suan)first-order linear differential equation 一(Yi)阶(Jie)线(Xian)性(Xing)微(Wei)分(Fen)方(Fang)程(Cheng)first-order separable differential equation 一(Yi)阶(Jie)可(Ke)分(Fen)离(Li)变(Bian)量(Liang)微(Wei)分(Fen)方(Fang)程(Cheng)focus 焦(Jiao)点(Dian)formula 公(Gong)式(Shi)fraction 分(Fen)数(Shu)proper fraction, 真(Zhen)分(Fen)数(Shu),improper fraction 假(Jia)分(Fen)数(Shu)function 函(Han)数(Shu)function determined implicitly by equation 由(You)方(Fang)程(Cheng)确(Que)定(Ding)的(De)隐(Yin)函(Han)数(Shu)function determined by parametric equation 由(You)参(Can)数(Shu)方(Fang)程(Cheng)确(Que)定(Ding)的(De)函(Han)数(Shu)Foundation Theorem of Calculus 微(Wei)积(Ji)分(Fen)基(Ji)本(Ben)定(Ding)理(Li)fundamental solution 基(Ji)础(Chu)解(Jie)GGauss-Jordan Elimination 高(Gao)斯(Si)-若(Ruo)尔(Er)当(Dang)消(Xiao)元(Yuan)法(Fa)general equation of a plane 平(Ping)面(Mian)的(De)一(Yi)般(Ban)式(Shi)方(Fang)程(Cheng)general solution 通(Tong)解(Jie)generator 分(Fen)母(Mu)geometry 几(Ji)何(He)geometric meaning (interpretation, significance) of derivative 导(Dao)数(Shu)的(De)几(Ji)何(He)意(Yi)义(Yi)given 给(Gei)定(Ding),设(She)gradient 梯(Ti)度(Du)gradient vector 梯(Ti)度(Du)向(Xiang)量(Liang)graph of a function 函(Han)数(Shu)图(Tu)像(Xiang)gravitational force 引(Yin)力(Li)Hhemisphere 半(Ban)球(Qiu)面(Mian)homogeneous equation 齐(Qi)次(Ci)方(Fang)程(Cheng)horizontal 水(Shui)平(Ping)horizontal asymptote 水(Shui)平(Ping)渐(Jian)近(Jin)线(Xian)hydrostatic force 水(Shui)压(Ya)力(Li)hyperbola 双(Shuang)曲(Qu)线(Xian)hyperbolic cylinder 双(Shuang)曲(Qu)柱(Zhu)面(Mian)hyperboloid 双(Shuang)曲(Qu)面(Mian)hyperboloid of one sheet 单(Dan)页(Ye)双(Shuang)曲(Qu)面(Mian)hypothesis 假(Jia)设(She)、题(Ti)设(She)hypothesis testing 假(Jia)设(She)检(Jian)验(Yan)Iidentity 恒(Heng)等(Deng)式(Shi)imaginary part 虚(Xu)部(Bu)improper integral 反(Fan)常(Chang)积(Ji)分(Fen)increment 增(Zeng)量(Liang)indefinite integral 不(Bu)定(Ding)积(Ji)分(Fen)independent variable 自(Zi)变(Bian)量(Liang)indeterminate form 未(Wei)定(Ding)式(Shi)index 指(Zhi)标(Biao)inequality 不(Bu)等(Deng)式(Shi)infinitesimal 无(Wu)穷(Qiong)小(Xiao)量(Liang)infinitesimal of higher order 高(Gao)阶(Jie)无(Wu)穷(Qiong)小(Xiao)equivalent of infinitesimals 等(Deng)价(Jia)无(Wu)穷(Qiong)小(Xiao)inflection point 拐(Guai)点(Dian)initial-value problem 初(Chu)值(Zhi)问(Wen)题(Ti)integer 整(Zheng)数(Shu)positive (negative) integer 正(Zheng)(负(Fu))整(Zheng)数(Shu)integral 积(Ji)分(Fen)integral calculus 积(Ji)分(Fen)学(Xue)integrating factor 积(Ji)分(Fen)因(Yin)子(Zi)Lebesgue integral 勒(Le)贝(Bei)格(Ge)积(Ji)分(Fen)Riemann integral 黎(Li)曼(Man)积(Ji)分(Fen)integrable 可(Ke)积(Ji)的(De)integrable with variable upper limit 积(Ji)分(Fen)上(Shang)限(Xian)函(Han)数(Shu)integrand 被(Bei)积(Ji)函(Han)数(Shu)integration by parts 分(Fen)部(Bu)积(Ji)分(Fen)法(Fa)integration by substitution 换(Huan)元(Yuan)积(Ji)分(Fen)法(Fa)integration curve 积(Ji)分(Fen)曲(Qu)线(Xian)intercept 截(Jie)距(Ju),x-intercept x 轴(Zhou)上(Shang)的(De)截(Jie)距(Ju)interior point 内(Nei)点(Dian)Intermediate value Theorem 介(Jie)值(Zhi)定(Ding)理(Li)intersect 相(Xiang)交(Jiao)intersection 交(Jiao)集(Ji)interval 区(Qu)间(Jian)closed (open) interval 闭(Bi)(开(Kai))区(Qu)间(Jian)interval of convergence 收(Shou)敛(Lian)区(Qu)间(Jian)inverse 反(Fan)、逆(Ni)inverse function 反(Fan)函(Han)数(Shu)inverse matrix 逆(Ni)矩(Ju)阵(Zhen)inverse trigonometric function 反(Fan)三(San)角(Jiao)函(Han)数(Shu)inversely proportional to 反(Fan)比(Bi)与(Yu)irrational number 无(Wu)理(Li)数(Shu)iterated integral 累(Lei)次(Ci)积(Ji)分(Fen)iteration 秩(Zhi)代(Dai)JJacobian matrix 雅(Ya)各(Ge)比(Bi)矩(Ju)阵(Zhen)Llaminar 平(Ping)面(Mian)薄(Bao)片(Pian)Law of Parallelogram 平(Ping)行(Xing)四(Si)边(Bian)形(Xing)法(Fa)则(Ze)lemma 引(Yin)理(Li)length of an arc 弧(Hu)长(Chang)let 设(She)、令(Ling)limit 极(Ji)限(Xian)right-hand (left-hand) limit 右(You)(左(Zuo))极(Ji)限(Xian)the limit of a sequence 数(Shu)列(Lie)极(Ji)限(Xian)the limit of f(x) as x approaches x 当(Dang)x 趋(Qu)近(Jin)于(Yu)x 时(Shi)f(x) 的(De)极(Ji)限(Xian)the limit of f(x) as x approaches infinity 当(Dang)趋(Qu)近(Jin)与(Yu)无(Wu)穷(Qiong)大(Da)时(Shi)f(x) 的(De)极(Ji)限(Xian)line integral 曲(Qu)线(Xian)积(Ji)分(Fen)line segment 线(Xian)段(Duan)linear algebra 线(Xian)性(Xing)代(Dai)数(Shu)linear approximation 线(Xian)性(Xing)逼(Bi)近(Jin)linear combination 线(Xian)性(Xing)组(Zu)合(He)linear function 线(Xian)性(Xing)函(Han)数(Shu)linear operations 线(Xian)性(Xing)运(Yun)算(Suan)linearly dependent (independent) 线(Xian)性(Xing)相(Xiang)关(Guan)/无(Wu)关(Guan)logarithmic differentiation 对(Dui)数(Shu)求(Qiu)导(Dao)法(Fa)logarithmic function 对(Dui)数(Shu)函(Han)数(Shu)lower limit 积(Ji)分(Fen)下(Xia)限(Xian)Mmapping 映(Ying)射(She)mathematics induction 数(Shu)学(Xue)归(Gui)纳(Na)法(Fa)matrix, matrics 矩(Ju)阵(Zhen)block matrix 分(Fen)块(Kuai)阵(Zhen)diagonal matrix 对(Dui)角(Jiao)阵(Zhen)elementary matrix 初(Chu)等(Deng)矩(Ju)阵(Zhen)identity matrix 单(Dan)位(Wei)矩(Ju)阵(Zhen)unit matrix 单(Dan)位(Wei)矩(Ju)阵(Zhen)invertible matrix 可(Ke)逆(Ni)矩(Ju)阵(Zhen)singular matrix 奇(Qi)异(Yi)阵(Zhen),降(Jiang)秩(Zhi)阵(Zhen)non-degenerate matrix 非(Fei)退(Tui)化(Hua)阵(Zhen)scalar matrix 数(Shu)量(Liang)阵(Zhen)square matrix 方(Fang)阵(Zhen)orthogonal matrix 正(Zheng)交(Jiao)阵(Zhen)symmetric matrix 对(Dui)称(Cheng)阵(Zhen)skew-symmetric matrix 反(Fan)对(Dui)称(Cheng)阵(Zhen)full rank matrix 满(Man)秩(Zhi)阵(Zhen)maximum 最(Zui)大(Da)值(Zhi)maximal linearly independent subset 最(Zui)大(Da)线(Xian)性(Xing)无(Wu)关(Guan)组(Zu)mean value theorem 中(Zhong)值(Zhi)定(Ding)理(Li)median 中(Zhong)位(Wei)数(Shu)minimum 最(Zui)小(Xiao)值(Zhi)mixed product, box product 混(Hun)合(He)积(Ji)mode 众(Zhong)数(Shu)moment 矩(Ju)量(Liang)moment matrix 矩(Ju)量(Liang)矩(Ju)阵(Zhen)moment generating function 矩(Ju)量(Liang)母(Mu)函(Han)数(Shu)moment of a force 力(Li)矩(Ju)moment of inertia about x-axis 关(Guan)于(Yu)x 轴(Zhou)的(De)转(Zhuan)动(Dong)惯(Guan)量(Liang)monotonely decrease 单(Dan)调(Diao)减(Jian)少(Shao)monotonely increase 单(Dan)调(Diao)增(Zeng)加(Jia)monotonicity 单(Dan)调(Diao)性(Xing)multiplication, multiple, product 积(Ji),乘(Cheng)法(Fa),相(Xiang)乘(Cheng)multivariable function 多(Duo)元(Yuan)函(Han)数(Shu)Nnatural number 自(Zi)然(Ran)数(Shu)natural domain 自(Zi)然(Ran)定(Ding)义(Yi)域(Yu)necessary condition 必(Bi)要(Yao)条(Tiao)件(Jian)neighborhood 邻(Lin)域(Yu)deleted neighborhood 去(Qu)心(Xin)邻(Lin)域(Yu)nontrivial solution 非(Fei)平(Ping)凡(Fan)解(Jie)norm 范(Fan)数(Shu)normal line 法(Fa)线(Xian)normal plane 法(Fa)平(Ping)面(Mian)normal vector 法(Fa)向(Xiang)量(Liang)notation 记(Ji)号(Hao)numerator 分(Fen)子(Zi)Oodd function 奇(Qi)函(Han)数(Shu)order 次(Ci)序(Xu)/ 阶(Jie)/导(Dao)数(Shu)的(De)阶(Jie)/矩(Ju)阵(Zhen)的(De)阶(Jie)/行(Xing)列(Lie)式(Shi)的(De)阶(Jie)operation 运(Yun)算(Suan)optimization 最(Zui)优(You)化(Hua)order-reducible differential equation 可(Ke)降(Jiang)阶(Jie)微(Wei)分(Fen)方(Fang)程(Cheng)ordinary differential equation (ODE) 常(Chang)微(Wei)分(Fen)方(Fang)程(Cheng)ordinate, y-coordinate 纵(Zong)坐(Zuo)标(Biao)orthogonal 正(Zheng)交(Jiao)的(De)orthogonal basis 正(Zheng)交(Jiao)基(Ji)orthonormal basis 规(Gui)范(Fan)正(Zheng)交(Jiao)基(Ji)oscillatory 振(Zhen)动(Dong)的(De)Pparabola 抛(Pao)物(Wu)线(Xian)parabolic cylinder 抛(Pao)物(Wu)柱(Zhu)面(Mian)paraboloid 抛(Pao)物(Wu)面(Mian)parallel to 平(Ping)行(Xing)于(Yu)parallelogram 平(Ping)行(Xing)四(Si)边(Bian)形(Xing)parameter 参(Can)数(Shu)parametric equations of a line 直(Zhi)线(Xian)的(De)参(Can)数(Shu)方(Fang)程(Cheng)parity of a function 函(Han)数(Shu)的(De)奇(Qi)偶(Ou)性(Xing)partial derivative 偏(Pian)导(Dao)数(Shu)first partial derivative 一(Yi)阶(Jie)偏(Pian)导(Dao)数(Shu)mixed higher partial derivative 高(Gao)阶(Jie)混(Hun)合(He)偏(Pian)导(Dao)数(Shu)part 部(Bu)分(Fen)integration by parts 分(Fen)部(Bu)积(Ji)分(Fen)法(Fa)partial differential equation (PDE) 偏(Pian)微(Wei)分(Fen)方(Fang)程(Cheng)partial fraction decomposition 部(Bu)分(Fen)分(Fen)式(Shi)分(Fen)解(Jie)partial sum sequence 部(Bu)分(Fen)和(He)数(Shu)列(Lie)particular solution 特(Te)解(Jie)pencil of planes 平(Ping)面(Mian)束(Shu)period of a function 函(Han)数(Shu)的(De)周(Zhou)期(Qi)periodic function 周(Zhou)期(Qi)函(Han)数(Shu)permutation 排(Pai)列(Lie)perpendicular to 垂(Chui)直(Zhi)于(Yu)plane 平(Ping)面(Mian)plane region 平(Ping)面(Mian)图(Tu)形(Xing)plane rectangular coordinate system 平(Ping)面(Mian)直(Zhi)角(Jiao)坐(Zuo)标(Biao)系(Xi)plane analytic geometry 平(Ping)面(Mian)解(Jie)析(Xi)几(Ji)何(He)point 点(Dian)common point 公(Gong)共(Gong)点(Dian),交(Jiao)点(Dian)point-normal equation of a plane 平(Ping)面(Mian)的(De)点(Dian)法(Fa)式(Shi)方(Fang)程(Cheng)polar coordinate system 极(Ji)坐(Zuo)标(Biao)系(Xi)polygon 多(Duo)边(Bian)形(Xing)polynomial function 多(Duo)项(Xiang)式(Shi)函(Han)数(Shu)position function 位(Wei)置(Zhi)函(Han)数(Shu)power 乘(Cheng)幂(Mi)power function 幂(Mi)函(Han)数(Shu)power series 幂(Mi)级(Ji)数(Shu)probability 概(Gai)率(Lv)probability density function 概(Gai)率(Lv)密(Mi)度(Du)函(Han)数(Shu)probability generating function 概(Gai)率(Lv)母(Mu)函(Han)数(Shu)probability mass function 概(Gai)率(Lv)质(Zhi)量(Liang)函(Han)数(Shu)problem, question 问(Wen)题(Ti)product 乘(Cheng)积(Ji)projection 投(Tou)影(Ying)proof, prove 证(Zheng)明(Ming)properties 性(Xing)质(Zhi)proportional to 正(Zheng)比(Bi)于(Yu)inversely proportional to 反(Fan)比(Bi)与(Yu)proposition 命(Ming)题(Ti)pyramid 棱(Leng)锥(Zhui)Qquadratic 二(Er)次(Ci)的(De),二(Er)次(Ci)quadrature 积(Ji)分(Fen)过(Guo)程(Cheng),正(Zheng)交(Jiao)的(De)quadric surfaces 二(Er)次(Ci)曲(Qu)面(Mian)quality 质(Zhi)量(Liang)quantity 数(Shu)量(Liang)quotient 商(Shang)Rradian 弧(Hu)度(Du)radius 半(Ban)径(Jing)random variable 随(Sui)机(Ji)变(Bian)量(Liang)rank of a matrix 矩(Ju)阵(Zhen)的(De)秩(Zhi)range 值(Zhi)域(Yu)the rate of change of y with respect to x y 关(Guan)于(Yu)x 的(De)变(Bian)化(Hua)率(Lv)rational function 有(You)理(Li)函(Han)数(Shu)rational number 有(You)理(Li)数(Shu)ratio test 比(Bi)值(Zhi)判(Pan)别(Bie)法(Fa)real number 实(Shi)数(Shu)rectangle 矩(Ju)形(Xing)regression 回(Hui)归(Gui)linear regression 线(Xian)性(Xing)回(Hui)归(Gui)related rate of change 相(Xiang)关(Guan)变(Bian)化(Hua)率(Lv)right circular cylinder 圆(Yuan)柱(Zhu)面(Mian)right-hand coordinate system 右(You)手(Shou)坐(Zuo)标(Biao)系(Xi)root-extract 开(Kai)根(Gen)root of an equation 方(Fang)程(Cheng)的(De)根(Gen)root test 根(Gen)值(Zhi)判(Pan)别(Bie)法(Fa)rose of three loops 三(San)叶(Ye)玫(Mei)瑰(Gui)线(Xian)row 行(Xing)elementary row transformation (operation) 初(Chu)等(Deng)行(Xing)变(Bian)换(Huan)Ssaddle 马(Ma)鞍(An)面(Mian)sample 样(Yang)本(Ben)scalar 数(Shu)量(Liang),标(Biao)量(Liang)secant 正(Zheng)割(Ge)secant line 割(Ge)线(Xian)second-order homogeneous linear equation with constant coefficient二(Er)阶(Jie)常(Chang)系(Xi)数(Shu)齐(Qi)次(Ci)微(Wei)分(Fen)方(Fang)程(Cheng)second-order nonhomogeneous linear equation with constant coefficient 二(Er)阶(Jie)常(Chang)系(Xi)数(Shu)非(Fei)齐(Qi)次(Ci)微(Wei)分(Fen)方(Fang)程(Cheng)sequence 数(Shu)列(Lie)series 级(Ji)数(Shu)infinite series 无(Wu)穷(Qiong)级(Ji)数(Shu)Taylor series (expansion) 泰(Tai)勒(Le)公(Gong)式(Shi)set 集(Ji)合(He)show 证(Zheng)明(Ming)single variable function 一(Yi)元(Yuan)函(Han)数(Shu)slope 斜(Xie)率(Lv)space 空(Kong)间(Jian)vector space 向(Xiang)量(Liang)空(Kong)间(Jian)linear space 线(Xian)性(Xing)空(Kong)间(Jian)space analytic geometry 空(Kong)间(Jian)解(Jie)析(Xi)几(Ji)何(He)2D(Dimension) space 二(Er)维(Wei)空(Kong)间(Jian)space rectangular coordinate system 空(Kong)间(Jian)直(Zhi)角(Jiao)坐(Zuo)标(Biao)系(Xi)squeeze rule 夹(Jia)逼(Bi)准(Zhun)则(Ze)solid 立(Li)体(Ti)solid of revolution 旋(Xuan)转(Zhuan)体(Ti)solution, solve 解(Jie)speed 速(Su)率(Lv)span 生(Sheng)成(Cheng),张(Zhang)成(Cheng)sphere 球(Qiu)面(Mian)standard deviation (std) 标(Biao)准(Zhun)差(Cha)state 叙(Xu)述(Shu)stationary point 驻(Zhu)点(Dian)stochastic 随(Sui)机(Ji)的(De)stochastic differential equation (SDE) 随(Sui)机(Ji)微(Wei)分(Fen)方(Fang)程(Cheng)straight line 直(Zhi)线(Xian)subset 子(Zi)集(Ji)subspace 子(Zi)空(Kong)间(Jian)substitute, substitution 代(Dai)入(Ru),置(Zhi)换(Huan)integration by substitute 换(Huan)元(Yuan)积(Ji)分(Fen)法(Fa)sufficient condition 充(Chong)分(Fen)条(Tiao)件(Jian)sum, summation 和(He),求(Qiu)和(He)sum of a series 级(Ji)数(Shu)的(De)和(He)suppose, supposition 假(Jia)设(She)surface integral 曲(Qu)面(Mian)积(Ji)分(Fen)symbol 符(Fu)号(Hao)symmetry, symmetric 对(Dui)称(Cheng)symmetric equations of a line 直(Zhi)线(Xian)的(De)对(Dui)称(Cheng)式(Shi)方(Fang)程(Cheng)system of equations 方(Fang)程(Cheng)组(Zu)system of linear equations 线(Xian)性(Xing)方(Fang)程(Cheng)组(Zu)Ttangent 正(Zheng)切(Qie)tangent line 切(Qie)线(Xian)tangent plane 切(Qie)面(Mian)theorem 定(Ding)理(Li)transformation 变(Bian)换(Huan)translation 平(Ping)移(Yi)trajectory 轨(Gui)迹(Ji)trapezoid 梯(Ti)形(Xing)triangle 三(San)角(Jiao)形(Xing)trigonometric function 三(San)角(Jiao)函(Han)数(Shu)hyperbolic trigonometric function 双(Shuang)曲(Qu)三(San)角(Jiao)函(Han)数(Shu)triple integral 三(San)重(Zhong)积(Ji)分(Fen)total differential 全(Quan)微(Wei)分(Fen)total increment 全(Quan)增(Zeng)量(Liang)Uunbiased 无(Wu)偏(Pian)的(De)union 全(Quan)集(Ji)unit vector 单(Dan)位(Wei)向(Xiang)量(Liang)unknown 未(Wei)知(Zhi)数(Shu)upper limit 积(Ji)分(Fen)上(Shang)限(Xian)Vvalue 值(Zhi)variable 变(Bian)量(Liang),可(Ke)变(Bian)的(De)variance 方(Fang)差(Cha)vector 向(Xiang)量(Liang)n-dimensional vector N 维(Wei)向(Xiang)量(Liang)velocity 速(Su)度(Du)verify 证(Zheng)明(Ming)vertex 顶(Ding)点(Dian) (复(Fu)数(Shu)vertices)vertical 验(Yan)证(Zheng)vertical asymptote 铅(Qian)直(Zhi)渐(Jian)近(Jin)线(Xian)volume of a solid 立(Li)体(Ti)体(Ti)积(Ji)the volume of a solid of revolution 旋(Xuan)转(Zhuan)体(Ti)的(De)体(Ti)积(Ji)Wthe work done by a force 某(Mou)力(Li)所(Suo)做(Zuo)的(De)功(Gong)Zzero 零(Ling)zeros of a polynomial 多(Duo)项(Xiang)式(Shi)的(De)零(Ling)点(Dian)Mathematical Sentence Patterns1. If …… , (then) …… (若(Ruo)设(She)……,则(Ze)有(You)……)2. Let …… , then …… . Therefore …… , so …… (令(Ling)……,则(Ze)…… ;于(Yu)是(Shi)……,因(Yin)此(Ci)……)3. By …… , we have …… (根(Gen)据(Ju)……,可(Ke)得(De)……)4. Prove (that) …… (证(Zheng)明(Ming)……)5. Compute that …… (计(Ji)算(Suan)……)6. Given …… , find …… (设(She)……,证(Zheng)明(Ming)……)7. Solve the equation for y in terms of x (将(Jiang)方(Fang)程(Cheng)中(Zhong)的(De)y 关(Guan)于(Yu)x 解(Jie)出(Chu)来(Lai))8. Since …… , (we have, it follows that) …… (因(Yin)为(Wei)……,所(Suo)以(Yi)可(Ke)推(Tui)得(De)……)9. Assume (suppose) that …… , then ……. Hence, …… (假(Jia)设(She)……,则(Ze)有(You)……;因(Yin)此(Ci)…… )10. By hypothesis …… , hence ……, and therefore …… (根(Gen)据(Ju)题(Ti)设(She)……,可(Ke)得(De)……,因(Yin)此(Ci)……)11. The above results imply that …… (根(Gen)据(Ju)上(Shang)述(Shu)结(Jie)果(Guo)可(Ke)得(De)……)12. When …… , …… becomes …… (当(Dang)……时(Shi),……变(Bian)为(Wei)……)13. Similarly ……(相(Xiang)似(Si)的(De)/ 同(Tong)理(Li)可(Ke)得(De)……)14. In general …… (一(Yi)般(Ban)的(De)……)15. Specially …… (特(Te)别(Bie)的(De)……)16. Without loss of generality, we assume that …… (不(Bu)失(Shi)一(Yi)般(Ban)性(Xing),可(Ke)设(She)……)17. Substitute a for x in (*), we obtain…… (在(Zai)(*)中(Zhong)用(Yong)a 代(Dai)替(Ti)x ,可(Ke)得(De)……)本(Ben)文(Wen)转(Zhuan)自(Zi):译(Yi)匠(Jiang)(请(Qing)点(Dian)击(Ji)阅(Yue)读(Du)原(Yuan)文(Wen)关(Guan)注(Zhu))

产别苍肠颈“箩颈别产补苍驳驳耻补蝉丑耻补颈”虫颈补苍驳尘耻飞补苍驳蝉丑补苍驳蝉丑别苍产补辞箩颈别锄丑颈蝉丑颈箩颈补苍飞别颈2024苍颈补苍7测耻别20谤颈,诲补苍驳别箩颈别产补苍驳虫颈补苍驳尘耻蝉丑别苍辩颈苍驳肠补颈锄丑别苍驳锄颈箩颈苍别诲耻产耻肠丑补辞驳耻辞500飞补苍测耻补苍,测补辞辩颈耻箩颈别产补苍驳诲补苍飞别颈辫别颈迟补辞锄颈箩颈苍别诲耻产耻诲颈测耻200飞补苍测耻补苍。(飞补苍)辩颈产补辞诲颈补苍:箩颈别驳耻辞诲别蹿补苍蝉颈

日(搁颈)前(蚕颈补苍),

在大清的宫廷深处,有一个故事,让人唏嘘不已——这是对于一个从普通女宫女到后宫妃子的历程,以及她与她唯一儿子之间的那份特殊的母子情。不过,既然闹到这种地步,两方一定都有错。《甄嬛传之躺赢人生》玉蕊檀心梅 ^第61章^ 最新更新...

不过空了那么长的时间不能够合理的利用也是一件非常可惜的事情

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