高中数学课程描述(英文)

高等数学课程大纲英文1. Matrices and Determinants2. Vector Calculus3. Multivariable Calculus4. Differential Equations5. Fourier Analysis6. Complex Analysis7. Applications of Differential Equations8. Partial Differential Equations9. Laplace Transform10. Numerical Methods1. In the Matrices and Determinants unit, students will learn how to manipulate matrices and evaluate determinants to solve systems of linear equations.(在矩阵和行列式单元中，学生将学习如何操作矩阵和评估行列式以解决线性方程组。

)2. The Vector Calculus unit will cover topics such as the gradient, divergence, and curl of vector fields, as well as line and surface integrals.(向量微积分单元将涵盖向量场的梯度、散度、旋度，以及线性和曲面积分等主题。

)3. The Multivariable Calculus unit will introduce students to functions of several variables, partial derivatives, and the gradient vector.(多元微积分单元将向学生介绍多元函数、偏导数和梯度矢量等概念。

)4. The Differential Equations unit will teach students how to solve differential equations, including first-order linear and nonlinear equations and higher-order linear equations.(微分方程单元将教授学生如何解决微分方程，包括一阶线性和非线性方程以及高阶线性方程。

Mathematics Course DescriptionMathematics course in middle school has two parts: compulsory courses and optional courses. Compulsory courses content lots of modern mathematical knowledge and conceptions, such as calculus, statistics,analytic geometry, algorithm and vector. Optional courses are choosen by students which is accrodding their interests.Compulsory Courses:Set TheoryCourse content:This course introduces a new vocabulary and set of rules that is foundational to the mathematical discussions. Learning the basics of this all-important branch of mathematics so that students are perpared to tackle and understand the concept of mathematical functions. Students learn about how entities are grouped into sets and how to conduct various operations of sets such as unions and intersections(i.e. the algebra of sets). We conclude with a brief introduction to the relationship between functions and sets to set the stage for the next stepKey Topics:The language of set theorySet membershipSubsets, supersets, and equalitySet theory and functionsFunctionsCourse content:This lesson begin with talking about the role of functions and look at the concept of mapping values between domain and range. From there student spend a good deal of time looking at how to visualize various kinds of functions using grahs. this course will begin with the absolute value function and then move on to discuss both exponential and logarithmic functions. Students get an opportunity to see how these functions can be used to model various kinds of phenomena.Key Topics:Single-variable functionsTwo –variable functionsExponential functionLogarithmic functionPower- functionCalculusCourse content:In the first step, the course introduces the conception of limit, derivative and differential. Then students can fully understand what is limit of number sequence and what is limit of function through some specific practices. Moreover, the method to calculate derivative is also introduced to students.Key Topics:Limit theoryDerivativeDifferentialAlgorithmCourse content:Introduce the conception of algorithm and the method to design algorithm. Then the figures of flow charts and the conception of logcial structure, like sequential structure, constructure of condition and cycle structure are introduced to studnets. Next step students can use the knowledge of algorithm to make simple programming language, during this procedure, student also approach to grammatical rules and statements which is as similar as BASIC language.Key Topics:AlgorithmLogical structure of flow chart and algorithmOutput statementInput statementAssingnment statementStatisticsCourse content:The course starts with basic knowledge of statistics, such as systematic sampling and group sampling. During the lesson students acquire the knowlegde like how to estimate collectivity distribution accroding frequency distribution of samples, and how to compute numerical characteristics of collectivity by looking at numerical characteristics of samples. Finally, the relationship and the interdependency of two variables is introduced to make sure that students mastered in how to make scatterplot, how to calculate regression line,and what is Method of Square.Key Topics:Systematic samplingGroup samplingRelationship between two variablesInterdependency of two variablesBasic Trigonometry ICourse content:This course talks about the properties of triangles and looks at the relationship that exist between their internal angles and lenghs of their sides. This leads to discussion of the most commonly used trigonometric functions that relate triangle properties to unit circles. This includes the sine, cosine and tangent functions. Students can use these properites and functions to solve a number of issues.Key Topics:Common AnglesThe polar coordinate systemTriangles propertiesRight trianglesThe trigonometric functionsApplications of basic trigonometryBasic Trigonometry IICourse content:This course will look at the very important inverse trig functions such as arcsin, arcos, and arctan, and see how they can be used to determine angle values. Students also learn core trig identities such as the reduction and double angle identities and use them as a means for deriving proofs.Key Topics:Derivative trigonometric functionsInverse trig functionsIdentities●Pythagorean identities●Reduction identities●Angle sum/Difference identities●Double-angle identitiesAnalytic Geometry ICourse content:This course introduces analytic geometry as the means for using functions and polynomials to mathematically represent points, lines, planes and ellipses. All of these concepts are vital in students mathematical development since they are used in rendering and optimization, collision detection, response and other critical areas. Students look at intersection formulas and distance formulas with respect to lines, points, planes and also briefly talk about ellipsoidal intersections.Key Topics:Parametric representationParallel and perpendicular linesIntersection of two linesDistance from a point to a lineAngles between linesAnalytic Geometry IICourse content:Students look at how analytic geometry plays an important role in a number of different areas of class design. Students continue intersection discussion by looking at a way to detect collision between two convex polygons. Then students can wrap things up with a look at the Lambertian Diffuse Lighting model to see how vector dot products can be used to determine the lighting and shading of points across a surface.Key Topics:ReflectionsPolygon/polygon intersectionLightingSequence of NumberCourse content:This course begin with introducing serveral conceptions of sequence of number, such as, term, finite sequence of number, infinite sequence of number, formula of general term and recurrence formula.Then, the conception of geometric sequence and arithmetic sequence is introduced to students. Through practices and mathematical games, stuendents gradually understand and utilize the knowldege of sequence of number, eventually students are able to sovle mathematical questions.Key Topics:Sequence of numberGeomertic sequenceArithmetic sequenceInequalityThis course introduces conception of inequality as well as its properties. In the following lessons students learn the solutions and arithmetics of one-variable quadratic inequality, two variables inequality, fundamental inequality as well how to solve simple linear programming problems.Key Topics:Inequal relationship and InequalityOne-variable quadratic inequality and its solutionTwo-variable inequality and linear programmingFundamental inequalityVector MathematicsCourse content:After an introduction to the concept of vectors, students look at how to perform various important mathematical operations on them. This includes addition and subtraction, scalar multiplication, and the all-important dot and cross products. After laying this computational foundation, students engage in games and talk about their relationship with planes and the plane representation, revisit distance calculations using vectors and see how to rotate and scale geometry using vector representations of mesh vertices.Key Topics:Linear combinationsVector representationsAddition/ subtractionScalar multiplication/ divisionThe dot productVector projectionThe cross productOptional CoursesMatrix ICourse content:In this course, students are introduced to the concept of a matrix like vectors, matrices and so on. In the first two lessons, student look at matrices from a purely mathematical perspective. The course talks about what matrices are and what problems they are intended to solve and then looks at various operations that can be performed using them. This includes topics like matrix addition and subtraction and multiplication by scalars or by other matrices. At the end, students can conclude this course with an overview of the concept of using matrices to solve system of linear equations.Key Topics:Matrix relationsMatrix operations●A ddition/subtraction●Scalar multiplication●Matrix Multiplication●Transpose●Determinant●InversePolynomialsCourse content:This course begins with an examination of the algebra of polynomials and then move on to look at the graphs for various kinds of polynomial functions. The course starts with linear interpolation using polynomials that is commonly used to draw polygons on display. From there students are asked to look at how to take complex functions that would be too costly to compute in a relatively relaxed studying environment and use polynomials to approximate the behavior of the function to produce similar results. Students can wrap things up by looking at how polynomials can be used as means for predicting the future values of variables.Key Topics:Polynomial algebra ( single varible)●addition/subtraction●multiplication/divisionQuadratic equationsGraphing polynomialsLogical Terms in MathematicsCourse content:This course introduces the relationshiop of four kinds of statements, necessary and sufficient conditions, basic logical conjunctions,existing quantifier and universal quantifier. By learning mathematical logic terms, students can be mastered in the usage of common logical terms and can self-correct logical mistakes. At the end of this course, students can deeply understand the mathematical expression is not only accurate but also concise.Key Topics:Statement and its relationshipNecessary and sufficient conditionsBasic logical conjuncitonsExisting quantifier and universal quantifierConic Sections and EquationCourse content:By using the knowlegde of coordinate method which have been taught in the lesson of linear and circle, in this lesson students learn how to set an equation accroding the character of conic sections. Students is able to find out the property of conic sections during establishing equations. The aim of this course is to make students understand the idea of coobination of number and shape by using the method of coordinate to solve simple geometrical problems which are related to conic sections.Key Topics:Curve and equationOvalHyperbolaParabola。

一、代数部分 (Algebra)1. 数学运算equal, is equal to 等于equivalent to 等价于is greater than 大于is lesser than 小于is equal or greater than 大于等于is equal or lesser than 小于等于operator 运算符add, plus 加subtract 减difference 差multiply, times 乘product 积divide 除augend, summand 被加数addend 加数minuend 被减数subtrahend 减数remainder 差multiplicand, faciend 被乘数multiplicator 乘数product 积dividend 被除数divisor 除数quotient 商remainder 余数divisible 可被整除的divided evenly 被整除divisor 因子，除数dividend 被除数factorial 阶乘power 乘方radical sign, root sign 根号factorial 阶乘logarithm 对数exponent 指数，幂power 乘方square 二次方，平方cube 三次方，立方the power of n, the nth power n次方evolution, extraction 开方square root 二次方根，平方根cube root 三次方根，立方根the root of n, the nth root n次方根2. 数字digit数字number数natural number 自然数integer/whole number 整数positive number 正数negative number 负数positive whole number 正整数negative whole number 负整数consecutive number 连续整数odd integer, odd number 奇数even integer, even number 偶数real number 实数rational number 有理数irrational number 无理数consecutive 连续数inverse / reciprocal 倒数composite number 合数prime number 质数common divisor 公约数multiple 倍数(least) common multiple (最小)公倍数(prime) factor (质)因子common factor 公因子nonnegative 非负的units 个位tens 十位ordinary / decimal scale 十进制binary system 二进制hexadecimal system 十六进制weight, significance 权carry 进位truncation 截尾round to / to the nearest 四舍五入round down 下舍入round up 上舍入significant digit 有效数字insignificant digit 无效数字3. 分数和小数decimal 小数decimal point 小数点fraction 分数numerator 分子denominator 分母proper fraction 真分数improper fraction 假分数common fraction 普通分数mixed number 带分数simple fraction 简分数complex fraction 繁分数(least) common denominator (最小)公分母quarter 四分之一decimal fraction 纯小数infinite decimal 无穷小数recurring decimal 循环小数places位〔thousands’ place，hundreds’ place，tens’ place，units’ place (ones’ digit)，tenths’ place，hundredths’ place，thousandths’ place.〕4. 集合与函数aggregate 集合element 元素void 空集subset 子集union 并集intersection 交集complement 补集proper subset 真子集solution set 解集mapping 映射function 函数domain, field of definition 定义域range 值域constant 常量variable 变量monotonicity 单调性parity 奇偶性periodicity 周期性image 图象5. 代数式、方程和不等式formula, formulae (pl.) 公式monomial 单项式polynomial, multinomial 多项式coefficient 系数equation 等式，方程式unknown, x-factor y-factor, z-factor 未知数simple equation 一次方程quadratic equation 二次方程cubic equation 三次方程quartic equation 四次方程inequation, inequality 不等式algebraic term 代数项like terms, similar terms 同类项literal coefficient 字母系数numerical coefficient 数字系数range 值域factorization 因式分解original equation 原方程equivalent equation 同解方程，等价方程linear equation 线性方程triangle inequality 三角不等式6. 逻辑axiom 公理theorem 定理calculation 计算operation 运算prove 证明hypothesis, hypotheses〔pl.〕假设proposition 命题arithmetic 算术7. 概率与统计approximate 近似estimation 估计，近似mean 均值mode 众数median 中数variance 方差standard error 标准偏差standard variation 标准方差standard deviation 标准差statistics 统计average 平均数weighted average 加权平均数proportion 比例percent 百分比percentage 百分点percentile 百分位数permutation 排列combination 组合probability 概率distribution 分布normal distribution 正态分布abnormal distribution 非正态分布graph 图表bar graph 条形统计histogram 柱形统计图broken line graph 折线统计图curve diagram 曲线统计图pie diagram 扇形统计图8. 三角函数trigonometry 三角sine 正弦cosine 余弦tangent 正切cotangent 余切secant 正割cosecant 余割arc sine 反正弦arc cosine 反余弦arc tangent 反正切arc cotangent 反余切arc secant 反正割arc cosecant 反余割phase 相位period 周期amplitude 振幅9. 数列arithmetic progression(sequence) 等差数列geometric progression(sequence) 等比数列10. 微积分与线性代数series 数列，级数calculus 微积分differential 微分derivative 导数limit 极限infinite 无穷大infinitesimal 无穷小integral 积分definite integral 定积分indefinite integral 不定积分rational number 有理数irrational number 无理数real number 实数imaginary number 虚数complex number 复数matrix 矩阵determinant 行列式11. 其他direct proportion 正比indirect proportion 反比proportion 比例ratio 比值arithmetic mean 算术平均值geometric mean 几何平均数weighted average 加权平均值exponent 指数，幂base 乘幂的底数，底边powers 幂cube 立方数，立方体square root 平方根cube root 立方根common logarithm 常用对数constant 常数variable 变量inverse function 反函数complementary function 余函数linear 一次的，线性的factorization 因式分解absolute value 绝对值approximate 近似(anti)clockwise (逆)顺时针方向cardinal 基数ordinal 序数direct proportion 正比distinct 不同的estimation 估计，近似parentheses 括号proportion 比例permutation 排列combination 组合table 表格trigonometric function 三角函数unit 单位,位二、几何部分 (Geometry)1. 基本术语point 点line 线plane 面solid 体space 空间segment 线段radial 射线circumference, perimeter 周长surface area 外表积volume 体积line, straight line 直线line segment 线段midpoint 中点endpoint 端点parallel 平行intersect 相交perpendicular 垂直edge 边，棱vertex(复数形式vertices) 顶点length 长width 宽altitude 高depth 深度side 边长tangent 切线的transversal 截线intercept 截距congruent 全等的similar 相似2. 平面图形quadrilateral 四边形pentagon 五边形hexagon 六边形heptagon 七边形octagon 八边形nonagon 九边形decagon 十边形hendecagon 十一边形dodecagon 十二边形polygon 多边形multilateral 多边的equilateral/regular polygon 正多边形parallelogram 平行四边形square 正方形rectangle 矩形rhombus, diamond 菱形trapezoid 梯形right trapezoid 直角梯形isosceles trapezoid 等腰梯形3. 角angle 角degree 角度radian 弧度acute angle 锐角right angle 直角obtuse angle 钝角round angle 周角straight angle 平角included angle 夹角adjacent angle 邻角interior angle 内角exterior angle 外角supplement aryangle 补角complement aryangle 余角alternate angle 内错角corresponding angle 同位角vertical angle 对顶角central angle 圆心角angle bisector 角平分线bisect 平分diagonal 对角线4. 三角形triangle 三角形right triangle 直角三角形acute triangle 锐角三角形obtuse triangle 钝角三角形oblique 斜三角形isosceles triangle 等腰三角形equilateral triangle 等边三角形scalene triangle 不等边三角形incenter 内心excenter 外心escenter 旁心orthocenter 垂心barycenter 重心inscribed triangle 内接三角形hypotenuse 斜边leg 直角边opposite 直角三角形中的对边arm 直角三角形的股median of a triangle 中线included side 夹边altitude (三角形的)高base 底边，底数Pythagorean theorem 勾股定理5. 圆circle 圆形semicircle 半圆concentric circles 同心圆semicircle 半圆concentric circles 同心圆center of a circle 圆心chord 弦diameter 直径radius 半径circumference 圆周长sector 扇形ring 环arc 弧radian 弧度〔弧长/半径〕segment of a circle 弧形point of tangency 切点inscribe 内切，内接circumscribe 外切，外接6. 立体图形solid 立体的face of a solid 立体的面cube 立方体，立方数tetrahedron 四面体pentahedron 五面体hexahedron 六面体parallelepiped 平行六面体rectangular solid 长方体cube 正方体heptahedron 七面体octahedron 八面体enneahedron 九面体decahedron 十面体hendecahedron 十一面体dodecahedron 十二面体icosahedron 二十面体polyhedron 多面体regular solid/polyhedron 正多面体pyramid 棱锥prism 棱柱frustum of a prism 棱台rotation 旋转axis 轴cone 圆锥cylinder 圆柱frustum of a cone 圆台sphere 球hemisphere 半球cross section 横截面undersurface 底面surface area 外表积7. 解析几何coordinate system 坐标系rectangular coordinate 直角坐标系origin 原点x-axis, y-axis, z-axis 坐标轴abscissa, x-coordinate 横坐标ordinate, y-coordinate 纵坐标number line 数轴quadrant 象限slope 斜率complex plane 复平面hyperbola 双曲线parabola 抛物线ellipse 椭圆locus, loca (pl.) 轨迹。

介绍数学的英语Mathematics is the study of numbers, shapes, patterns, and their relationships. It is a field that deals with logical reasoning and problem-solving using numerical calculations, measurements, and mathematical models. Math is used extensively in various disciplines such as physics, engineering, finance, computer science, and many more.Here are 27 bilingual example sentences related to mathematics:1.数学是一门需要逻辑推理和问题解决的学科。

Mathematics is a discipline that requires logical reasoning and problem-solving.2.数学是一种描述和量化现实世界的语言。

Mathematics is a language that describes and quantifies the real world.3.我们使用数学来解决实际生活中的各种问题。

We use mathematics to solve various problems in everyday life.4.算数是数学的一个重要分支，涉及基本的加减乘除运算。

Arithmetic is an important branch of mathematics that involves basic operations like addition, subtraction, multiplication, and division.5.代数是研究数之间关系和未知量的分支。

a-level课程数学高一主要内容
A-Level课程是英国的高等教育课程体系，适用于16-18岁的学生。

数学是A-Level课程中的一门重要科目。

高一阶段的A-Level数学课程主要包括以下内容：
1.基础数学：包括代数、几何、三角函数、微积分等基本数学概念和技能。

2.进阶数学：涉及更高级的数学知识，如微积分、概率论、线性代数等。

3.实用数学：包括数学在日常生活中的应用，如金融、物理、化学等领域的数学问题。

4.统计学：学习收集、整理、分析和解释数据的方法，以及概率、抽样分布等统计概念。

5.计算机科学：学习编程语言、算法、数据结构等计算机科学基础知识。

6.附加数学：包括更高级的代数、几何、三角函数、微积分等知识。

7.决策数学：涉及优化、图论、动态规划等数学方法在决策中的应用。

在高一阶段，学生需要掌握基础数学和部分进阶数学知识，为后续的学习打下基础。

在学习过程中，学生可以通过参加课堂授课、自习、辅导课程等方式来提高自己的数学能力。

同时，学校会安排课表，避免课程冲突，确保学生有充足的时间学习其他科目和进行自主学习。

2024版高中数学课程标准精选讲解英文版Selected Explanations of the 2024 High School Math Curriculum StandardsIn this document, we will delve into the key components of the 2024 high school math curriculum standards. These standards are designed to equip students with the necessary mathematical skills and knowledge to succeed in their academic and professional endeavors. The curriculum covers a wide range of topics, including algebra, geometry, calculus, and statistics.One of the main objectives of the math curriculum is to develop students' problem-solving abilities. By engaging in various mathematical tasks and exercises, students will learn how to approach complex problems with confidence and precision. This will not only help them succeed in their math courses but also in other subject areas and real-world scenarios.Another important aspect of the curriculum is the focus on mathematical reasoning. Students will be encouraged to think critically and analytically when solving mathematical problems. This will help them develop a deeper understanding of mathematical concepts and principles, leading to improved performance in assessments and examinations.Furthermore, the curriculum emphasizes the importance of mathematical communication. Students will be required to articulate their thought processes and solutions clearly and concisely. This will help them develop effective communication skills that are essential for success in both academic and professional settings.Overall, the 2024 high school math curriculum standards are designed to provide students with a solid foundation in mathematics and prepare them for future academic and career opportunities. By mastering the skills and concepts outlined in the curriculum, students will be well-equipped to tackle the challenges that lie ahead and achieve their full potential.。

Course SyllabusesCourse Name Higher Mathematics Course CodeHours&Credits160 & 10Majors&Minors Science &Technology Majors Faculty of Mathematics and PhysicsHigher MathematicsCOURSE DESCRIPTION:Prerequisites: satisfactory score on elementary mathematicsCorequisites: NoneHigher Mathematics is designed to serve students majoring in chemical science, computer science and engineering etc. It consists of two parts of a two-semester sequence. The course begins with a rapid review of topics in algebra and trigonometry, which you should be competent in. Part 1, consisting of Chapters 1 to 7, is devoted to single variable differentiation, integration and differential equations. It covers the fundamental concepts and theorems. Part 2, consisting of Chapters 8 to 12, discusses in depth multivariable differentiation, integration, infinite series, vectors and the geometry of space.COURSE OBJECTIVES:Upon completion, students will be able to evaluate limits and continuity, and compute derivatives and integrals of selected functions with single or multivariable, solve some linear differential equations and determine the convergences or divergences of an infinite series. Furthermore, students will be able to utilize the techniques of differentiation and integration together with appropriate technology to solve practical problems and to analyze and communicate results.OUTLINE OF INSTRUCTION:Chapter 1. Functions and LimitsChapter 2. Derivatives and DifferentiationChapter 3. The Mean Value Theorem and Applications of the Derivatives Chapter 4. Indefinite IntegralsChapter 5. Definite IntegralsChapter 6. Applications of IntegralsChapter 7. Differential EquationsChapter 8. vectors and the geometry of spaceChapter 9. Multivariable Functions and Theire DerivativesChapter 10. Multiple IntegralsChapter 11. Integration in Vector FieldsChapter 12. Infinite SeriesTEACHING METHODS:LectureASSESSMENT Items:There will be a midterm, final and two periodical examinationsGRADING:Midterm 10%Final Exam 50%Two periodical Exam 20%(each 10%)Exercises 20%REFERENCE BOOKS:1.Stewart, James. Calculus: Early Transcendentals. 7th ed. Brooks/Cole, CengageLearning 20122.Ross L. Finney. Calculus. 10th edition. Maurice D. Weir and Frank R. Giordano 2010。

Mathematics Course DescriptionMathematics course in middle school has two parts: compulsory courses and optional courses. Compulsory courses content lots of modern mathematical knowledge and conceptions, such as calculus, statistics, analytic geometry, algorithm and vector. Optional courses are chosen by students which is according their interests.Compulsory Courses:Set TheoryCourse content:This course introduces a new vocabulary and set of rules that is foundational to the mathematical discussions. Learning the basics of this all-important branch of mathematics so that students are prepared to tackle and understand the concept of mathematical functions. Students learn about how entities are grouped into sets and how to conduct various operations of sets such as unions and intersections (i.e. the algebra of sets). We conclude with a brief introduction to the relationship between functions and sets to set the stage for the next stepKey Topics:➢The language of set theory➢Set membership➢Subsets, supersets, and equality➢Set theory and functionsFunctionsCourse content:This lesson begins with talking about the role of functions and look at the concept of mapping values between domain and range. From there student spend a good deal of time looking at how to visualize various kinds of functions using graphs. This course will begin with the absolute value function and then move on to discuss both exponential and logarithmic functions. Students get an opportunity to see how these functions can be used to model various kinds of phenomena. Key Topics:➢Single-variable functions➢Two –variable functions➢Exponential function➢ Logarithmic function➢Power- functionCalculusCourse content:In the first step, the course introduces the conception of limit, derivative and differential. Then students can fully understand what is limit of number sequence and what is limit of function through some specific practices. Moreover, the method to calculate derivative is also introduced to students.Key Topics:➢Limit theory➢Derivative➢DifferentialAlgorithmCourse content:Introduce the conception of algorithm and the method to design algorithm. Then the figures of flow charts and the conception of logical structure, like sequential structure, contracture of condition and cycle structure are introduced to students. Next step students can use the knowledge of algorithm to make simple programming language, during this procedure, student also approach to grammatical rules and statements which is as similar as BASIC language.Key Topics:➢Algorithm➢Logical structure of flow chart and algorithm➢Output statement➢Input statement➢Assignment statementStatisticsCourse content:The course starts with basic knowledge of statistics, such as systematic sampling and group sampling. During the lesson students acquire the knowledge like how to estimate collectivity distribution according frequency distribution of samples, and how to compute numerical characteristics of collectivity by looking at numerical characteristics of samples. Finally, the relationship and the interdependency of two variables is introduced to make sure that students mastered in how to make scatterplot, how to calculate regression line, and what is Method of Square.Key Topics:➢Systematic sampling➢Group sampling➢Relationship between two variables➢Interdependency of two variablesBasic Trigonometry ICourse content:This course talks about the properties of triangles and looks at the relationship that exists between their internal angles and lengths of their sides. This leads to discussion of the most commonly used trigonometric functions that relate triangle properties to unit circles. This includes the sine, cosine and tangent functions. Students can use these properties and functions to solve a number of issues.Key Topics:➢Common Angles➢The polar coordinate system➢Triangles properties➢Right triangles➢The trigonometric functions➢Applications of basic trigonometryBasic Trigonometry IICourse content:This course will look at the very important inverse trig functions such as arcsin, arcos, and arctan, and see how they can be used to determine angle values. Students also learn core trig identities such as the reduction and double angle identities and use them as a means for deriving proofs. Key Topics:➢Derivative trigonometric functions➢Inverse trig functions➢Identities●Pythagorean identities●Reduction identities●Angle sum/Difference identities●Double-angle identitiesAnalytic Geometry ICourse content:This course introduces analytic geometry as the means for using functions and polynomials to mathematically represent points, lines, planes and ellipses. All of these concepts are vital in student’s mathematical development since they are used in rendering and optimization, collision detection, response and other critical areas. Students look at intersection formulas and distance formulas with respect to lines, points, planes and also briefly talk about ellipsoidal intersections. Key Topics:➢Parametric representation➢Parallel and perpendicular lines➢Intersection of two lines➢Distance from a point to a line➢Angles between linesAnalytic Geometry IICourse content:Students look at how analytic geometry plays an important role in a number of different areas of class design. Students continue intersection discussion by looking at a way to detect collision between two convex polygons. Then students can wrap things up with a look at the Lambertian Diffuse Lighting model to see how vector dot products can be used to determine the lighting and shading of points across a surface.Key Topics:➢Reflections➢Polygon/polygon intersection➢LightingSequence of NumberCourse content:This course begin with introducing several conceptions of sequence of number, such as, term, finite sequence of number, infinite sequence of number, formula of general term and recurrence formula. Then, the conception of geometric sequence and arithmetic sequence is introduced to students. Through practices and mathematical games, students gradually understand and utilizethe knowledge of sequence of number, eventually students are able to solve mathematical questions.Key Topics:➢Sequence of number➢Geometric sequence➢Arithmetic sequenceInequalityThis course introduces conception of inequality as well as its properties. In the following lessons students learn the solutions and arithmetic of one-variable quadratic inequality, two variables inequality, fundamental inequality as well how to solve simple linear programming problems.Key Topics:➢Unequal relationship and Inequality➢One-variable quadratic inequality and its solution➢Two-variable inequality and linear programming➢Fundamental inequalityVector MathematicsCourse content:After an introduction to the concept of vectors, students look at how to perform various important mathematical operations on them. This includes addition and subtraction, scalar multiplication, and the all-important dot and cross products. After laying this computational foundation, students engage in games and talk about their relationship with planes and the plane representation, revisit distance calculations using vectors and see how to rotate and scale geometry using vector representations of mesh vertices.Key Topics:➢Linear combinations➢Vector representations➢Addition/ subtraction➢Scalar multiplication/ division➢The dot product➢Vector projection➢The cross productOptional CoursesMatrix ICourse content:In this course, students are introduced to the concept of a matrix like vectors, matrices and so on. In the first two lessons, student look at matrices from a purely mathematical perspective. The course talks about what matrices are and what problems they are intended to solve and then looks at various operations that can be performed using them. This includes topics like matrix addition and subtraction and multiplication by scalars or by other matrices. At the end, students can conclude this course with an overview of the concept of using matrices to solve system of linear equations.Key Topics:➢Matrix relations➢Matrix operations●Addition/subtraction●Scalar multiplication●Matrix Multiplication●Transpose●Determinant●InversePolynomialsCourse content:This course begins with an examination of the algebra of polynomials and then move on to look at the graphs for various kinds of polynomial functions. The course starts with linear interpolation using polynomials that is commonly used to draw polygons on display. From there students are asked to look at how to take complex functions that would be too costly to compute in a relatively relaxed studying environment and use polynomials to approximate the behavior of the function to produce similar results. Students can wrap things up by looking at how polynomials can be used as means for predicting the future values of variables.Key Topics:➢Polynomial algebra ( single variable)●addition/subtraction●multiplication/division➢Quadratic equations➢Graphing polynomialsLogical Terms in MathematicsCourse content:This course introduces the relationships of four kinds of statements, necessary and sufficient conditions, basic logical conjunctions, existing quantifier and universal quantifier. By learning mathematical logic terms, students can be mastered in the usage of common logical terms and can self-correct logical mistakes. At the end of this course, students can deeply understand the mathematical expression is not only accurate but also concise.Key Topics:➢Statement and its relationship➢Necessary and sufficient conditions➢Basic logical conjunctions➢Existing quantifier and universal quantifierConic Sections and EquationCourse content:By using the knowledge of coordinate method which have been taught in the lesson of linear and circle, in this lesson students learn how to set an equation according the character of conic sections. Students is able to find out the property of conic sections during establishing equations. The aim of this course is to make students understand the idea of combination of number and shape by using the method of coordinate to solve simple geometrical problems which are related to conic sections.Key Topics:➢Curve and equation ➢Oval➢Hyperbola➢Parabola。

高中英语数学讲课稿范文Ladies and gentlemen, I am honored to be standing here today to share with you the fascinating world of mathematics. Mathematics is more than just numbers and equations; it is a subject that teaches us problem-solving skills and critical thinking. Whether you love or hate math, it is an essential and exciting subject that opens up doors to numerous career opportunities. Today, I will be covering various topics, including algebra, geometry, trigonometry, calculus, and statistics. So, let's dive right in!First, let's start with algebra. Algebra is the branch of mathematics that deals with solving equations and manipulating mathematical symbols. It is crucial in various real-life applications, such as calculating distances, solving problems involving unknown variables, and analyzing data sets. Algebraic expressions, equations, and inequalities are the foundation of algebra.One important concept in algebra is solving linear equations. A linear equation is an equation that involves variables raised to the first power and does not have any exponents. To solve a linear equation, we follow a series of steps, which include isolating the variable, performing the same operation on both sides, and simplifying the equation further until we find the solution. Moving on to geometry, geometry deals with the study of shape, size, and properties of figures in various dimensions. Euclidean geometry is the most commonly studied branch of geometry, which is based on the works of the Greek mathematician Euclid. We learn about angles, lines, polygons, and circles in this geometry. It helps us understand the world around us, frommeasuring the height of buildings to designing structures in architecture and engineering.One interesting topic in geometry is the Pythagorean Theorem. The Pythagorean Theorem states that in a right-angled triangle, the square of the hypotenuse (the side opposite the right angle) is equal to the sum of the squares of the other two sides. This theorem has numerous applications in many fields, including navigation, construction, and even music.Now, let's move on to trigonometry. Trigonometry is the study of the relationships between angles and sides of triangles. It is particularly useful in solving problems involving triangles and circular functions. Trigonometry plays a vital role in navigation, architecture, physics, and even music. Sine, cosine, and tangent are the primary trigonometric functions that help us calculate angles and sides of triangles.Next up is calculus. Calculus is the branch of mathematics that deals with the study of change and motion. It has two main branches: differential calculus and integral calculus. Differential calculus focuses on finding rates of change and slopes of curves, while integral calculus deals with finding areas under curves. Calculus is widely used in physics, engineering, economics, and even medicine.Last but not least, let's talk about statistics. Statistics is the branch of mathematics that deals with the collection, analysis, interpretation, presentation, and organization of data. It helps us make sense of the vast amounts of information we encounter in ourdaily lives. Statistics is essential in numerous fields, including business, finance, medicine, and social sciences. It helps us make informed decisions, predict outcomes, and understand patterns and trends.In conclusion, mathematics is a fascinating subject that is indispensable in our modern world. Whether you are fascinated or intimidated by numbers, mathematics teaches us problem-solving skills, logical reasoning, and critical thinking. Algebra, geometry, trigonometry, calculus, and statistics are just some of the branches of mathematics. They have practical applications in various fields and open up doors to numerous career opportunities. So, embrace the beauty of mathematics and let it guide you on your journey of lifelong learning and discovery.。

普通高中课程的英文普通高中是中国的一个重要的学段，其课程设置与全面发展素质教育的理念息息相关。

那么，普通高中的课程应该如何用英文表达呢？首先，我们可以用“Senior High School Curriculum”来翻译“普通高中课程”，其中“Senior High School”表示“高中”，“Curriculum”则为课程。

当然，也可以用“Secondary School Curriculum”或“High School Education”等翻译方式。

接下来，我们来看看普通高中的主要课程科目及其英文表达：1. 语文：Chinese Language and Literature2. 数学：Mathematics3. 英语：English4. 物理：Physics5. 化学：Chemistry6. 生物：Biology7. 政治：Politics8. 历史：History9. 地理：Geography10. 信息技术：Information Technology11. 美术：Art12. 音乐：Music13. 体育：Physical Education14. 通用技术：General Technology15. 心理健康：Mental Health Education以上就是普通高中主要课程科目的英文表达。

当然，不同地区的普通高中课程设置可能有所不同，但总体来说，这些科目是比较普遍、基础的。

最后，需要注意的是，英文中有些课程名称可能与中文不同，比如“Chinese Language and Literature”的中文翻译为“语文”，而“Information Technology”的中文翻译则为“信息技术”。

因此，在翻译普通高中课程时，需要注意上下文语境，以免出现误解。

高中数学词汇中英文对照一、代数部分(Algebra)1.数学运算equal, is equal to等于XXX等价于is greater than大于is lesser than小于is equal or greater than大于等于XXX小于等于operator运算符add, plus加subtract减difference差multiply, times乘product积divide除XXX, XXX被加数XXX加数XXX被减数XXX减数remainder差multiplicand, XXX被乘数multiplicator乘数product积dividend被除数divisor除数quotient商remainder余数divisible可被整除的divided XXX被整除divisor因子，除数dividend被除数factorial阶乘power乘方radical sign, root sign根号factorial阶乘logarithm对数exponent指数，幂power乘方XXX二次方，平方cube三次方，立方the power of n, the nth power n 次方XXX, extraction开方XXX root二次方根，平方根cube root三次方根，立方根the root of n, the nth root n次方根2.数字digit数字number数natural number天然数XXX整数XXX正数negative number负数XXX正整数negative whole number负整数consecutive number连续整数odd integer, odd number奇数even integer, even number偶数real number实数XXXXXX无理数consecutive连续数inverse / reciprocal倒数XXX合数prime number质数common divisor条约数multiple倍数(least) common multiple (最小)公倍数(prime) factor (质)因子common factor公因子XXX非负的units个位XXX十位ordinary / decimal scale十进制binary system二进制hexadecimal system十六进制weight, significance权carry进位XXX截尾round to / to the nearest四舍五入round down下舍入round up上舍入significant digit有效数字insignificant digit无效数字3.分数和小数decimal小数decimal point小数点fraction分数numerator分子denominator分母XXX真分数improper fraction假分数common fraction通俗分数mixed number带分数simple fraction简分数complex fraction繁分数(least) common denominator (最小)公分母quarter四分之一decimal fraction纯小数infinite decimal无限小数recurring decimal循环小数places位（thousands’place，hundreds’place，XXX’place，units’place (ones’digit)，XXX’place，XXX’place，XXX’place.）4.调集与函数aggregate集合element元素void空集subset子集union并集intersection交集complement补集proper subset真子集solution set解集mapping映照function函数domain, field of definition定义域range值域constant常量variable变量monotonicity单调性parity奇偶性periodicity周期性image图像5.代数式、方程和不等式formula, formulae (pl.)公式monomial单项式polynomial, multinomial多项式coefficient系数XXX等式，方程式unknown, x-factor y-factor, z- factor未知数simple equation一次方程quadratic equation二次方程XXX三次方程XXX四次方程XXX, inequality不等式algebraic term代数项like terms, similar terms同类项literal coefficient字母系数numerical coefficient数字系数range值域factorization因式分化original equation原方程XXX同解方程，等价方程linear equation线性方程XXX三角不等式6.逻辑axiom正义theorem定理XXX计较operation运算prove证明hypothesis, XXX（pl.）假设proposition命题arithmetic算术7.概率与统计approximate近似XXX估计，近似mean均值mode众数XXX中数variance方差standard error标准偏差standard variation尺度方差standard deviation尺度差statistics统计average平均数XXX加权均匀数proportion比例percent百分比XXX百分点XXX百分位数XXX布列XXX组合probability几率distribution分布normal distribution正态漫衍XXX非正态分布graph图表bar graph条形统计histogram柱形统计图broken line graph折线统计图curve diagram曲线统计图pie diagram扇形统计图8.三角函数trigonometry三角sine正弦cosine余弦XXX正切XXX余切XXX正割cosecant余割arc sine反正弦arc cosine反余弦XXX反正切XXX反余切arc secant归正割XXX反余割phase相位period周期amplitude振幅9.数列arithmetic progression(sequence) 等差数列geometric progression(sequence) 等比数列10.微积分与线性代数series数列，级数calculus微积分differential微分derivative导数limit极限infinite无限大infinitesimal无穷小integral积分definite integral定积分indefinite integral不定积分XXXXXX无理数real number实数imaginary number虚数complex number复数matrix矩阵determinant行列式11.其他direct proportion正比indirect proportion反比proportion比例ratio比值arithmetic mean算术均匀值geometric mean几何平均数XXX加权均匀值exponent指数，幂base乘幂的底数，底边powers幂cube立方数，立方体XXX root平方根cube root立方根common logarithm常用对数constant常数variable变量XXX反函数XXX函数linear一次的，线性的factorization因式分解absolute value绝对值approximate近似(anti)clockwise (逆)顺时针方向cardinal基数ordinal序数direct proportion反比distinct分歧的XXX估量，近似parentheses括号proportion比例XXX排列XXX组合table表格XXX三角函数unit单位,位2、多少局部(Geometry) 1.基本术语point点line线plane面solid体space空间segment线段radial射线circumference, perimeter周长XXX area表面积volume体积line, XXX直线line segment线段midpoint中点XXX端点parallel平行intersect订交perpendicular垂直edge边，棱vertex(复数形式vertices)顶点length长width宽altitude高depth深度side边长XXX切线的transversal截线intercept截距congruent全等的similar相似2.平面图形quadrilateral四边形pentagon五边形hexagon六边形heptagon七边形octagon八边形nonagon九边形decagon十边形XXX十一边形dodecagon十二边形polygon多边形multilateral多边的XXX正多边形parallelogram平行四边形XXX正方形rectangle矩形rhombus, diamond菱形trapezoid梯形right trapezoid直角梯形isosceles trapezoid等腰梯形3.角angle角degree角度radian弧度acute angle锐角right angle直角obtuse angle钝角round angleXXXstraight angle平角included angle夹角adjacent angle邻角interior angle内角exterior angle外角XXX补角XXX余角alternate angle内错角corresponding angle同位角vertical angle对顶角central angle圆心角angle bisector角平分线bisect平分diagonal对角线4.三角形triangle三角形right triangle直角三角形acute triangle锐角三角形obtuse triangle钝角三角形oblique斜三角形isosceles triangle等腰三角形equilateral triangle等边三角形XXX不等边三角形incenter内心excenter外心escenter旁心XXX垂心barycenter重心inscribed triangle内接三角形hypotenuse斜边leg直角边opposite直角三角形中的对边arm直角三角形的股XXX of a triangle中线included side夹边altitude (三角形的)高base底边，底数XXX勾股定理5.圆circle圆形semicircle半圆concentric circles同心圆semicircle半圆concentric circles同心圆center of a circle圆心chord弦diameter直径radius半径circumference圆周长sector扇形ring环arc弧radian弧度（弧长/半径）segment of a circle弧形point of tangency切点inscribe内切，内接circumscribe外切，外接6.立体图形solid立体的face of a solid立体的面cube立方体，立方数XXX四周体XXX五面体XXX六面体parallelepiped平行六面体XXX长方体cube正方体XXX七面体octahedron八面体XXX九面体XXX十面体XXX十一面体dodecahedron十二面体icosahedron二十面体polyhedron多面体XXX正多面ellipse椭圆体locus, loca (pl.)轨迹pyramid棱锥prism棱柱frustum of a prism棱台XXX旋转axis轴cone圆锥cylinder圆柱XXX圆台sphere球hemisphere半球cross section横截面undersurface底面XXX area表面积7.剖析多少coordinate system坐标系rectangular coordinate直角坐标系XXX原点x-axis, y-axis, z-axis坐标轴abscissa, x-coordinate横坐标ordinate, y-coordinate纵坐标number line数轴quadrant象限slope斜率complex XXX复平面XXX。

代数ALGEBRA1. 数论natural number 自然数positive number 正数negative number 负数odd integer, odd number 奇数even integer, even number 偶数integer, whole number 整数consecutive number 连续整数positive integer（whole）number 正整数negative integer（whole）number 负整数composite number 合数例如4,6,8,9,10,12,14,15…prime number 质数例如2,3,5,7,11,13,15…mode 众数mean（average）平均数median中位值real number, rational number 实数,有理数irrational（number）无理数inverse 相反数reciprocal 倒数common divisor 公约数multiple 倍数(minimum) common multiple (最小)公倍数(prime) factor (质)因子common factor 公因子ordinary scale, decimal scale 十进制common ratio 公比nonnegative 非负的tens 十位units 个位2. 基本数学概念arithmetic mean 算术平均值weighted average 加权平均值geometric mean 几何平均数exponent 指数，幂base 乘幂的底数,底边cube 立方数，立方体square root 平方根cube root 立方根common logarithm 常用对数digit 数字constant 常数variable 变量inverse function 反函数complementary unction 余函数linear 一次的，线性的factorization 因式分解absolute value 绝对值，round off 四舍五入数学3. 基本运算add，plus 加subtract 减difference 差multiply, times 乘product 积divide 除quotient 商remainder 余数divisible 可被整除的divided evenly 被整除dividend 被除数，红利divisor 因子，除数，公约数factorial 阶乘power 乘方radical sign, root sign 根号round to 四舍五入t4. 代数式，方程，不等式domain 定义域range 值域algebraic term 代数项like terms, similar terms 同类项numerical coefficient 数字系数literal coefficient 字母系数inequality 不等式triangle inequality 三角不等式original equation 原方程equivalent equation 同解方程，等价方程linear equation 线性方程(例如5x+6=22)5. 分数，小数proper fraction 真分数improper fraction 假分数mixed number 带分数vulgar fraction，common fraction 普通分数simple fraction 简分数complex fraction 繁分数numerator 分子denominator 分母(least) common denominator （最小）公分母quarter 四分之一decimal fraction 纯小数infinite decimal 无穷小数recurring decimal 循环小数tenths unit 十分位6. 集合union 并集proper subset 真子集solution set 解集7. 数列sequence数列arithmetic progression(sequence) 等差数列geometric progression(sequence) 等比数列8. 其它clockwise 顺时针方向(anti)clockwise 逆时针方向approximate 近似cardinal 基数ordinal 序数direct proportion 正比distinct 不同的estimation 估计，近似parentheses 括号proportion 比例permutation 排列combination 组合table 表格trigonometric function 三角函数unit 单位,位几何GEOMETRY1.角alternate angle 内错角corresponding angle 同位角vertical angle 对顶角central angle 圆心角interior angle 内角exterior angle 外角supplementary angles 补角complementary angle 余角adjacent angle 邻角acute angle 锐角obtuse angle 钝角right angle 直角round angle 周角straight angle 平角included angle 夹角2. 三角形equilateral triangle 等边三角形scalene triangle 不等边三角形isosceles triangle 等腰三角形right triangle 直角三角形oblique 斜三角形inscribed triangle 内接三角形3. 收敛的平面图形，除三角形外semicircle 半圆concentric circles 同心圆quadrilateral 四边形parallelogram 平行四边形equilateral 等边形plane 平面square 正方形，平方rectangle 长方形regular polygon 正多边形pentagon 五边形hexagon 六边形heptagon 七边形octagon 八边形nonagon 九边形decagon 十边形polygon 多边形rhombus 菱形trapezoid 梯形4. 其它平面图形arc 弧line, straight line 直线line segment 线段parallel lines 平行线perpendicular 垂直segment of a circle 弧形5. 立体图形cube 立方体，立方数rectangular solid 长方体regular solid/regular polyhedron 正多面体circular cylinder 圆柱体cone 圆锥sphere 球体solid 立体的6. 图形的附属概念plane geometry 平面几何trigonometry 三角学bisect 平分circumscribe 外切inscribe 内切intersect 相交perpendicular 垂直Pythagorean theorem 勾股定理（毕达哥拉斯定理）congruent 全等的multilateral 多边的altitude 高depth 深度side 边长circumference, perimeter 周长radian 弧度surface area 表面积volume 体积arm 直角三角形的股cross section 横截面center of a circle 圆心chord 弦diameter 直径radius 半径angle bisector 角平分线diagonal 对角线化edge 棱face of a solid 立体的面hypotenuse 斜边included side 夹边leg 三角形的直角边median（三角形的）中线base 底边，底数（e.g. 2的5次方，2就是底数）opposite 直角三角形中的对边midpoint 中点endpoint 端点vertex (复数形式vertices)顶点tangent 切线的transversal 截线intercept 截距7. 坐标coordinate system 坐标系rectangular coordinate 直角坐标系origin 原点abscissa 横坐标ordinate 纵坐标number line 数轴quadrant 象限slope 斜率complex plane 复平面8. 计量单位cent 美分penny 一美分硬币nickel 5美分硬币dime 一角硬币dozen 打（12个）score 廿(20个)Centigrade 摄氏Fahrenheit 华氏quart 夸脱gallon 加仑(1 gallon = 4 quart) yard 码meter 米micron 微米inch 英寸foot 英尺minute 分(角度度量单位) square measure 平方单位制cubic meter 立方米pint 品脱(液量的单位)物理方面的，数学不是说那个比较好，我就不找了吧。

数学教学的英语Mathematics is a universal language, transcendingcultural barriers and connecting learners of all ages. In classrooms, the teaching of math can be a bridge to understanding the world through numbers and patterns.Engaging students with interactive activities is key to making math lessons enjoyable. From counting games in kindergarten to solving complex equations in high school, the approach should be tailored to the developmental stage of the students.The use of technology in math education hasrevolutionized the way students learn and teachers teach. Apps, online platforms, and interactive whiteboards are tools that can make abstract concepts more tangible.Cultivating a growth mindset is essential in math education. Encouraging students to embrace challenges and persevere through difficulties can lead to a deeper appreciation of the subject.In the realm of math, diversity in teaching methods is crucial. Some students may excel with visual aids, while others might prefer a more hands-on approach. Adaptability is key to reaching all learners.Mathematical literacy is not just about solving problems;it's about developing critical thinking skills that are applicable in everyday life. Whether it's budgeting finances or understanding scientific data, math is an essential tool.The beauty of math lies in its precision and logic. It offers a structured way of thinking that can be applied across various disciplines, from engineering to economics.In conclusion, effective math teaching in English should be inclusive, engaging, and adaptable to the diverse needs of students. It should foster a love for learning and equip students with the skills to navigate a world that is increasingly quantitative.。

Mathematics Course DescriptionMathematics course in middle school has two parts: compulsory courses and optional courses. Compulsory courses content lots of modern mathematical knowledge and conceptions, such as calculus, statistics, analytic geometry, algorithm and vector. Optional courses are chosen by students which is according their interests.Compulsory Courses:Set TheoryCourse content:This course introduces a new vocabulary and set of rules that is foundational to the mathematical discussions. Learning the basics of this all-important branch of mathematics so that students are prepared to tackle and understand the concept of mathematical functions. Students learn about how entities are grouped into sets and how to conduct various operations of sets such as unions and intersections (i.e. the algebra of sets). We conclude with a brief introduction to the relationship between functions and sets to set the stage for the next stepKey Topics:➢The language of set theory➢Set membership➢Subsets, supersets, and equality➢Set theory and functionsFunctionsCourse content:This lesson begins with talking about the role of functions and look at the concept of mapping values between domain and range. From there student spend a good deal of time looking at how to visualize various kinds of functions using graphs. This course will begin with the absolute value function and then move on to discuss both exponential and logarithmic functions. Students get an opportunity to see how these functions can be used to model various kinds of phenomena. Key Topics:➢Single-variable functions➢Two –variable functions➢Exponential function➢ Logarithmic function➢Power- functionCalculusCourse content:In the first step, the course introduces the conception of limit, derivative and differential. Then students can fully understand what is limit of number sequence and what is limit of function through some specific practices. Moreover, the method to calculate derivative is also introduced to students.Key Topics:➢Limit theory➢Derivative➢DifferentialAlgorithmCourse content:Introduce the conception of algorithm and the method to design algorithm. Then the figures of flow charts and the conception of logical structure, like sequential structure, contracture of condition and cycle structure are introduced to students. Next step students can use theknowledge of algorithm to make simple programming language, during this procedure, student also approach to grammatical rules and statements which is as similar as BASIC language.Key Topics:➢Algorithm➢Logical structure of flow chart and algorithm➢Output statement➢Input statement➢Assignment statementStatisticsCourse content:The course starts with basic knowledge of statistics, such as systematic sampling and group sampling. During the lesson students acquire the knowledge like how to estimate collectivity distribution according frequency distribution of samples, and how to compute numerical characteristics of collectivity by looking at numerical characteristics of samples. Finally, the relationship and the interdependency of two variables is introduced to make sure that students mastered in how to make scatterplot, how to calculate regression line, and what is Method of Square.Key Topics:➢Systematic sampling➢Group sampling➢Relationship between two variables➢Interdependency of two variablesBasic Trigonometry ICourse content:This course talks about the properties of triangles and looks at the relationship that exists between their internal angles and lengths of their sides. This leads to discussion of the most commonly used trigonometric functions that relate triangle properties to unit circles. This includes the sine, cosine and tangent functions. Students can use these properties and functions to solve a number of issues.Key Topics:➢Common Angles➢The polar coordinate system➢Triangles properties➢Right triangles➢The trigonometric functions➢Applications of basic trigonometryBasic Trigonometry IICourse content:This course will look at the very important inverse trig functions such as arcsin, arcos, and arctan, and see how they can be used to determine angle values. Students also learn core trig identities such as the reduction and double angle identities and use them as a means for deriving proofs. Key Topics:➢Derivative trigonometric functions➢Inverse trig functions➢Identities●Pythagorean identities●Reduction identities●Angle sum/Difference identities●Double-angle identitiesAnalytic Geometry ICourse content:This course introduces analytic geometry as the means for using functions and polynomials to mathematically represent points, lines, planes and ellipses. All of these concepts are vital in student’s mathematical development since they are used in rendering and optimization, collision detection, response and other critical areas. Students look at intersection formulas and distance formulas with respect to lines, points, planes and also briefly talk about ellipsoidal intersections. Key Topics:➢Parametric representation➢Parallel and perpendicular lines➢Intersection of two lines➢Distance from a point to a line➢Angles between linesAnalytic Geometry IICourse content:Students look at how analytic geometry plays an important role in a number of different areas of class design. Students continue intersection discussion by looking at a way to detect collision between two convex polygons. Then students can wrap things up with a look at the Lambertian Diffuse Lighting model to see how vector dot products can be used to determine the lighting and shading of points across a surface.Key Topics:➢Reflections➢Polygon/polygon intersection➢LightingSequence of NumberCourse content:This course begin with introducing several conceptions of sequence of number, such as, term, finite sequence of number, infinite sequence of number, formula of general term and recurrence formula. Then, the conception of geometric sequence and arithmetic sequence is introduced to students. Through practices and mathematical games, students gradually understand and utilize the knowledge of sequence of number, eventually students are able to solve mathematical questions.Key Topics:➢Sequence of number➢Geometric sequence➢Arithmetic sequenceInequalityThis course introduces conception of inequality as well as its properties. In the following lessons students learn the solutions and arithmetic of one-variable quadratic inequality, two variables inequality, fundamental inequality as well how to solve simple linear programming problems.Key Topics:➢Unequal relationship and Inequality➢One-variable quadratic inequality and its solution➢Two-variable inequality and linear programming➢Fundamental inequalityVector MathematicsCourse content:After an introduction to the concept of vectors, students look at how to perform various important mathematical operations on them. This includes addition and subtraction, scalar multiplication, and the all-important dot and cross products. After laying this computational foundation, students engage in games and talk about their relationship with planes and the plane representation, revisit distance calculations using vectors and see how to rotate and scale geometry using vector representations of mesh vertices.Key Topics:➢Linear combinations➢Vector representations➢Addition/ subtraction➢Scalar multiplication/ division➢The dot product➢Vector projection➢The cross productOptional CoursesMatrix ICourse content:In this course, students are introduced to the concept of a matrix like vectors, matrices and so on. In the first two lessons, student look at matrices from a purely mathematical perspective. The course talks about what matrices are and what problems they are intended to solve and then looks at various operations that can be performed using them. This includes topics like matrix addition and subtraction and multiplication by scalars or by other matrices. At the end, students can conclude this course with an overview of the concept of using matrices to solve system of linear equations.Key Topics:➢Matrix relations➢Matrix operations●Addition/subtraction●Scalar multiplication●Matrix Multiplication●Transpose●Determinant●InversePolynomialsCourse content:This course begins with an examination of the algebra of polynomials and then move on to look at the graphs for various kinds of polynomial functions. The course starts with linear interpolation using polynomials that is commonly used to draw polygons on display. From there students are asked to look at how to take complex functions that would be too costly to compute in a relatively relaxed studying environment and use polynomials to approximate the behavior of the function to produce similar results. Students can wrap things up by looking at how polynomials can be used as means for predicting the future values of variables.Key Topics:➢Polynomial algebra ( single variable)●addition/subtraction●multiplication/division➢Quadratic equations➢Graphing polynomialsLogical Terms in MathematicsCourse content:This course introduces the relationships of four kinds of statements, necessary and sufficient conditions, basic logical conjunctions, existing quantifier and universal quantifier. By learning mathematical logic terms, students can be mastered in the usage of common logical terms and can self-correct logical mistakes. At the end of this course, students can deeply understand the mathematical expression is not only accurate but also concise.Key Topics:➢Statement and its relationship➢Necessary and sufficient conditions➢Basic logical conjunctions➢Existing quantifier and universal quantifierConic Sections and EquationCourse content:By using the knowledge of coordinate method which have been taught in the lesson of linear and circle, in this lesson students learn how to set an equation according the character of conic sections. Students is able to find out the property of conic sections during establishing equations. The aim of this course is to make students understand the idea of combination of number and shape by using the method of coordinate to solve simple geometrical problems which are related to conic sections.Key Topics:➢Curve and equation➢Oval➢Hyperbola➢Parabola。

高中数学英式分解教案模板Grade: High SchoolTopic: English FactorizationLesson Objective: Students will be able to factorize algebraic expressions using English methodMaterials Needed:- Whiteboard and markers- Algebraic expressions for factorization- Worksheet with practice problemsWarm-up (5 minutes):- Begin the lesson by reviewing the concept of factorization with the students- Ask students to solve a simple factorization problem on the whiteboard Introduction (10 minutes):- Define English factorization and explain how it differs from traditional factorization methods- Provide examples of English factorization and show step-by-step processGuided Practice (15 minutes):- Work through a couple of practice problems as a class, demonstrating how to factorize using the English method- Allow students to ask questions and provide support as neededIndependent Practice (20 minutes):- Distribute the worksheet with practice problems for students to work on individually - Circulate the room to provide assistance and monitor student progressClosure (5 minutes):- Review answers to the practice problems with the class- Clarify any misconceptions and reinforce key concepts of English factorization Homework:- Assign additional factorization problems for students to complete at home, using the English methodAssessment:- Use students' completed worksheets to assess their understanding of English factorization - Informally assess students' participation and engagement during class activities Extension Activity:- Challenge students to create their own algebraic expressions for their classmates to factorize using the English methodNote:- Adapt this lesson plan as needed to meet the specific needs and abilities of your students.。

数学分析课程简介课程编码:21090031-21090033课程名称：数学分析英文名称：Mathematical Analysis课程类别：学科基础课程课程简介：数学分析俗称：“微积分”，创建于17世纪，直到19世纪末及20世纪初才发展为一门理论体系完备，内容丰富，应用十分广泛的数学学科。

数学分析课是各类大学数学与应用数学专业、信息与计算科学专业最主要的专业基础课。

是进一步学习复变函数论、微分方程、微分几何、概率论、实变分析与泛函分析等后继课程的阶梯，是数学类硕士研究生的必考基础课之一。

本课程基本的内容有：极限理论、一元函数微积分学、级数理论、多元函数微积分学等方面的系统知识，用现代数学工具——极限的思想与方法研究函数的分析特性——连续性、可微性、可积性。

极限方法是贯穿于全课程的主线。

课程的目的是通过三个学期学习和系统的数学训练，使学生逐步提高数学修养，特别是分析的修养，积累从事进一步学习所需要的数学知识，掌握数学的基本思想和方法，培养与锻炼学生的数学思维素质，提高学生分析与解决问题的能力。

教材名称：数学分析教材主编：华东师范大学主编（第四版）出版日期：2010年6月第四版出版社：高等教育出版社《数学分析1》课程教学大纲（2010级执行）课程代号：21090031总学时：80学时（讲授58学时，习题22学时）适用专业：数学与应用数学、信息与计算科学先修课程：本课程不需要先修课程，以高中数学为基础一、本课程地位、性质和任务本课程是本科数学与应用数学专业、信息与计算科学专业的一门必修的学科基础课程。

通过本课程的教学，使学生掌握数学分析的基本概念、基本理论、思想方法，培养学生解决实际问题的能力和创新精神，为学习后继课程打下基础。

二、课程教学的基本要求重点：极限理论；一元函数微分学及贯穿整个课程内容的无穷小分析的方法。

基本要求：掌握极限、函数连续性、可微等基本概念；掌握数列极限、函数极限；闭区间连续函数性质；熟练掌握函数导数、微分的计算及应用；掌握微分中值定理及其应用。