IGCSE_Physics_Question_Booklet_Chapter_9_Magnets,Currents

IGCSE考试课程是什么IGCSE是InternationalGeneralCertificateofSecondaryEducation，是目前国外14岁至16岁全世界最多人读的体系，是CIE(CambrigeInternationalexamination)剑桥全球测试的一部分。

数学，英语，生物，物理，化学，艺术，历史，地理，还有第三国语言（在欧洲一般是本国语言加上法语、西班牙语或德语），为普遍学校开设课程。

在IGCSE里，有64个可选科目，你可以在有限度的情况下自由选择，限度是：英文和数学必修，但英文和数学各有3个不同的选择。

IGCSE至始至终都是要培养学生的创新能力和爱好，所以有64个科目可选。

两年之后，你会去接受剑桥教授出的考卷，其中一个paper是一个小时，很简单；另一个paper是2个半小时，非常难写完。

之后考卷被送往剑桥去改。

1~3个月之后你会收到他们给你的证书。

其证书在大部地区（只要是说英文的）都会得到承认。

其广泛性是由于剑桥的名声，以及GCSE（即英国的IGCSE）的成功而来的。

每年全球有几千万的莘莘学子在读IGCSE。

目前中国鲜有人知道IGCSE，大部分人知道的是SAT，因为SAT是进美国大学必不可少的。

但是想进英系大学，如剑桥，牛津大学的人应关心一下。

其证书只要是说英文的国家地区均会得到承认，该考试相当于我们理解的“SSAT”，唯一不同的是：若同学想申请英国名校剑桥，牛津大学等相近英系大学，此考试成绩是申请的重要参考之一。

IGCSE的终级目标是给A-LEVEL,IB,AP等更高阶段的学习一个很好的奠基，之后去读用A-level,IB,AP的成绩去大学。

有些学生也可以凭借优秀的IGCSE成绩申请部分大学，一般被大学录取后再读一年的预科课程。

剑桥IGCSE资格证书在全世界100多个国家颁发,被高等教育机构和用人单位视为学习能力的证明。

剑桥IGCSE等同于英国本土的GCSE。

在一些国家中，学校使用剑桥IGCSE来代替当地官方考试。

igcse英语每个部分
IGCSE英语课程通常包括以下部分：
1. 阅读理解：学生需要能够理解和分析各种类型的文本，包括小说、非小说、新闻和剧本。

2. 写作：学生需要能够写不同类型的文章，包括描述性、说明性、议论性等。

3. 听力：学生需要能够听懂各种类型的音频材料，并理解其中的要点和含义。

4. 口语：学生需要能够流利地表达自己的观点，并能够进行有效的口头交流。

5. 语言知识：学生需要掌握英语的基本语法和词汇，并能够正确地使用英语。

6. 文学：学生需要了解不同种类的文学作品，包括诗歌、小说、戏剧等，并能够分析和评价这些作品。

7. 文化：学生需要了解英语国家的文化和社会习俗，包括历史、地理、政治等方面。

总体来说，IGCSE英语课程是一个综合性很强的课程，旨在提高学生的英语语言技能和文学素养，同时也注重培养学生的思维能力和文化意识。

igcse物理练习题IGCSE Physics Practice Questions1. Forces and MotionQuestion 1:A car initially traveling at 20 m/s comes to a stop in 10 seconds. Calculate the acceleration of the car.Solution:Given:- Initial velocity (u) = 20 m/s- Final velocity (v) = 0 m/s- Time (t) = 10 sUsing the equation:v = u + atWe can rearrange the equation to solve for acceleration (a):a = (v - u) / ta = (0 - 20) / 10a = -2 m/s^2Therefore, the acceleration of the car is -2 m/s^2.Question 2:A ball is thrown vertically upwards with an initial velocity of 15 m/s. Calculate the time it takes for the ball to reach its maximum height.Solution:Given:- Initial velocity (u) = 15 m/s- Final velocity (v) = 0 m/s- Acceleration (a) = -9.8 m/s^2 (due to gravity)Using the equation:v = u + atWe can rearrange the equation to solve for time (t):t = (v - u) / at = (0 - 15) / -9.8t = 1.53 s (rounded to two decimal places)Therefore, it takes approximately 1.53 seconds for the ball to reach its maximum height.2. ElectricityQuestion 3:A circuit consists of a 12 V battery connected to a bulb. The current flowing through the bulb is 2A. Calculate the resistance of the bulb.Solution:Given:- Voltage (V) = 12 V- Current (I) = 2 AWe know that resistance (R) can be calculated using Ohm's Law:R = V / IR = 12 / 2R = 6 ΩTherefore, the resistance of the bulb is 6 ohms.Question 4:A circuit has two resistors connected in parallel. The resistance of the first resistor is 4 Ω, and the resistance of the second resistor is 6 Ω. Cal culate the total resistance of the circuit.Solution:To calculate the total resistance (R_total) of resistors connected in parallel, we use the formula:1/R_total = 1/R1 + 1/R2Substituting the values:1/R_total = 1/4 + 1/61/R_total = (6 + 4) / (4 * 6)1/R_total = 10 / 24R_total = 24 / 10R_total = 2.4 ΩTherefore, the total resistance of the circuit is 2.4 ohms.3. WavesQuestion 5:A wave with a frequency of 500 Hz and a wavelength of 0.2 m travels through a medium. Calculate the speed of the wave.Solution:Given:- Frequency (f) = 500 Hz- Wavelength (λ) = 0.2 mThe speed of a wave can be calculated using the formula:v = f * λv = 500 * 0.2v = 100 m/sTherefore, the speed of the wave is 100 m/s.Question 6:A sound wave has a frequency of 440 Hz. Calculate the wavelength of this sound wave if the speed of sound is 340 m/s.Solution:Given:- Frequency (f) = 440 Hz- Speed of sound (v) = 340 m/sThe wavelength can be calculated using the formula:v = f * λRearranging the formula to solve for wavel ength (λ):λ = v / fλ = 340 / 440λ = 0.77 m (rounded to two decimal places)Therefore, the wavelength of the sound wave is approximately 0.77 m.Remember to practice these questions regularly to improve your understanding of IGCSE Physics. Good luck with your studies!。

IGCSE 物理中英词汇General Physicsmovement ：运动；活动position ：位置,方位acceleration :加速，促进velocity : ［力] 速率；迅速investigate :调查;研究force :力量；促使weight : 重量，重力friction：摩擦，[力］摩擦力precise ：精确的,准确的accurate ：精确的,准确的tape measure ：卷尺vernier calliper ：游标卡尺micrometer screw gauge ：螺旋千分尺[测微计]Measuring cylinder ：量筒sliding scale ：计算尺,按比例增减mass :团，块，堆Pascal ：帕斯卡(Blaise，1623-1662，法国数学家、物理学家、哲学家）Action-reaction forces 反作用力resistance ：阻力；电阻upthrust :向上推electrostatic：静电的；unbalance ［力] 失衡；shape: 形状;模型；elastic：松紧带；橡皮圈resilient :弹回的horizontally ：水平地；横地lamina ：薄板，薄层，叶片clockwise :顺时针方向的gravitation :吸引力，趋势geothermal :地热的hydroelectric ：水力发电的tidal :潮水的：受潮汐影响的barometer ：气压计，晴雨表nanometer ：纳米Dependent variable ：因变量Energy levels ：能级Buoyant force ：浮力Equilibrant force ：平衡力Centripetal force ：向心力Gravitational potential energy：重力势能Circular motion 圆周运动Coefficient of friction 摩擦系数Impulse—momentum theorem :动量定理Coefficient of volume expansion ：体积膨胀系数Inertia ：惯性，Joule : 焦耳Constant acceleration：恒加速度Kelvin temperature scale ：凯式温度Instantaneous acceleration : 瞬时加速度Kinetic energy :动能Magnification ：放大率weight :负荷；使…变重moment :转矩，动量，时刻equilibrium :平衡,均势Sliding friction :滑动摩擦Slope ：斜率Simple harmonic motion：简谐运动Static friction ：静摩擦Thermal energy 热能Kinetic—molecular energy ：分子能Momentum 动量Potential difference 势差Law of conservation of energy :能量守恒定律Pressure：电压Linear accelerator：直线加速度Principle of superposition：叠加原理Uniform circular motion：等速圆周运动Uniform acceleration：匀加速度Thermal physicsconduction :[生理］传导，传导convection : [流］[气象］对流；radiation :辐射；发光；放射物insulator: ［物] 绝缘体；electromagnetic ：电磁的invar ：不胀钢brass ：黄铜，铜管乐器calibrate ：校准，使标准化latent heat of vaporization ：汽化潜热knob ：(门、抽屉的)球形把手thermostat ：恒温（调节)器Mercury ：水星，水银junction ：联结点，枢纽thermocouple ：热电偶thermistor ：电热调节器insulation ：隔离,隔绝solidification :凝固，spectrum :光谱;频谱;hypothermic ：体温过低的absolute zero：[物］绝对零度infra-red：红外线的energy efficient:节能arrangement ：安排；解决办法collide ：相撞，碰撞evaporation :蒸发；发散；消失cap screw :帽螺钉bimetallic strip ：(用于恒温器等中的)双金属条conduction ：（热、电等的)传导convection :传送，对流infrared radiation ：红外辐射ion :〈物>离子metal gauze strainer ：金属网过滤器Bunsen burner ：本生灯(即煤气灯)latent heat of fusion ：熔解潜热boiling ：沸腾的，激昂的manganate ：锰酸盐electromagnetic spectrum ：电磁波频谱stirrer shaft :搅拌器轴Carnot efficiency :卡诺循环Specific heat ：比热Cohesive force ：内聚力Thermal equilibrium ：热平衡Convection :对流传热Thermal expansion ：热膨胀Boiling point ：沸点Insulator：绝缘、隔热或隔音等的物质或装置matt ：表面暗淡的，无光泽的sea breeze ：（白天吹向内陆的）海风adhesion：附着力Bubble chamber ：气泡箱Entropy ：熵Calorimeter ：热量剂Evaporation ：蒸发Capillary action ：毛细管作用Melting point ：熔点Thermometer :温度计Dynamics :动力学IGCSE 数学中英对照词汇代数部分1.基础add，plus 加subtract 减difference 差multiply times 乘product 积divide 除divisible 可被整除的divided evenly 被整除dividend 被除数divisor 因子，除数quotient 商remainder 余数factorial 阶乘power 乘方radical sign, root sign 根号round to 四舍五入to the nearest 四舍五入2。

igcse物理知识点总结IntroductionIGCSE Physics is a foundational course that introduces students to the basic principles of physics. This course covers a wide range of topics, including mechanics, electricity, magnetism, waves, and thermal physics. The knowledge gained from this course provides students with a solid foundation for further study in the field of physics.In this summary, we will discuss the key topics covered in IGCSE Physics and provide a comprehensive overview of the concepts and principles that students need to understand. Key Areas of StudyIGCSE Physics covers a wide range of topics, each of which is essential for understanding the fundamental principles of physics. Some of the key areas of study include:1. Forces and motion2. Electricity and magnetism3. Waves4. Thermal physics5. Energy, work, and power6. Nuclear physics7. AstrophysicsForces and MotionForces and motion are fundamental concepts in physics. In this section, students will learn about the different types of forces, such as gravitational, frictional, and electromagnetic forces, and how they affect the motion of objects. They will also learn about Newton's laws of motion and how to calculate the resultant force acting on an object.Electricity and MagnetismElectricity and magnetism are closely related phenomena, and the study of these topics is essential for understanding the behavior of electrical and magnetic fields. In this section, students will learn about electric circuits, potential difference, electric current, resistance, and the behavior of magnets and magnetic fields.WavesWaves are another important topic in physics, and students will learn about the properties of waves, including wavelength, frequency, and amplitude. They will also study the behaviorof sound waves and light waves, as well as the principles of reflection, refraction, and diffraction.Thermal PhysicsThermal physics is the study of heat and temperature, and students will learn about the behavior of gases, the laws of thermodynamics, and the transfer of heat energy through conduction, convection, and radiation.Energy, Work, and PowerEnergy, work, and power are fundamental concepts in physics, and students will learn about the different forms of energy, including kinetic and potential energy, and how to calculate the work done and power output of a system.Nuclear PhysicsNuclear physics is the study of atomic and subatomic particles, and students will learn about the structure of the atom, radioactive decay, nuclear fission and fusion, and the applications of nuclear energy.AstrophysicsAstrophysics is the study of the universe and the objects within it, and students will learn about the properties of stars, galaxies, and the principles of cosmology.Key Concepts and PrinciplesIn addition to the key areas of study, IGCSE Physics covers a number of key concepts and principles that are fundamental to the understanding of physics. Some of these key concepts include:1. Newton's laws of motion2. The principles of conservation of energy and momentum3. The behavior of waves and the properties of sound and light4. The laws of thermodynamics5. The structure of the atom and the behavior of subatomic particles6. The behavior of magnetic fields and the principles of electromagnetism Understanding these key concepts and principles is essential for mastering the fundamentals of physics and applying them to real-world situations.Practical ApplicationsIGCSE Physics also emphasizes the practical applications of physics concepts and principles, and students will learn how to apply their knowledge to solve problems and carry out experiments. This practical approach helps students to develop critical thinking skills and a deeper understanding of the subject.ConclusionIGCSE Physics is a comprehensive course that covers a wide range of topics, including forces and motion, electricity and magnetism, waves, thermal physics, energy, work, and power, nuclear physics, and astrophysics. By studying these key areas of physics and understanding the key concepts and principles, students will develop a solid foundation in the subject and be well-prepared for further study in the field of physics.Overall, IGCSE Physics provides students with a solid grounding in the fundamental principles of physics and equips them with the knowledge and skills needed to apply these principles to real-world situations. This course is an essential building block for further study in physics and other related fields, and it provides students with a strong foundation for future academic and professional pursuits.This knowledge summary aims to provide an overview of the key topics covered in IGCSE Physics and to highlight the importance of understanding the key concepts and principles of the subject. By mastering these fundamental principles, students will develop a deeper appreciation for the natural world and the laws that govern it, and they will be well-prepared to apply their knowledge to a wide range of scientific and technological challenges.。

ig物理题型【实用版】目录1.IG 物理考试的概述2.IG 物理考试的题型3.针对不同题型的备考策略4.总结正文一、IG 物理考试的概述IG 物理，全称为 International General Certificate of Secondary Education Physics，是国际普通中等教育证书物理科目的简称。

该考试主要针对全球的中学生，旨在测试他们在物理学科方面的知识和技能。

IG 物理考试作为国际认可的学术资格证书，对于学生申请国外大学和评估个人学术能力具有重要意义。

二、IG 物理考试的题型IG 物理考试主要包括以下几种题型：1.选择题（Multiple Choice Questions）：此类题型要求考生从四个备选项中选出一个正确答案。

选择题主要测试考生对基本概念和知识点的掌握程度。

2.填空题（Short Answer Questions）：此类题型要求考生根据问题，用简短的语句回答。

填空题主要测试考生对物理定律和公式的理解和应用能力。

3.计算题（Calculation Questions）：此类题型要求考生运用物理知识解决实际问题，包括理论计算和数据处理。

计算题主要测试考生的逻辑思维和数学运算能力。

4.实验题（Experimental Questions）：此类题型要求考生根据实验情景，分析实验原理、步骤和结果。

实验题主要测试考生对实验操作和数据分析的能力。

5.论述题（Long Answer Questions）：此类题型要求考生对某一主题进行详细论述，包括解释物理现象、分析物理问题和阐述物理原理等。

论述题主要测试考生的综合运用能力和表达能力。

三、针对不同题型的备考策略1.选择题：建议考生熟悉物理基本概念和知识点，掌握关键词汇，以便快速准确地选出正确答案。

2.填空题：要求考生对物理定律和公式熟练掌握，注重语言表达的准确性和简洁性。

3.计算题：考生需要加强数学运算能力，熟练运用物理公式进行计算。

cambridge igcse physics 教材介绍
Cambridge IGCSE Physics教材是一套全面、深入、严谨的物理学教材，旨在帮助学生掌握IGCSE物理考试所需的知识和技能。

这套教材由剑桥大学国际考试委员会（Cambridge International Examinations）出版，是全球范围内广泛使用的IGCSE物理教材之一。

该教材的内容涵盖了IGCSE物理考试的所有主要领域，包括力学、热学、电磁学、光学和现代物理等。

每个章节都包含了清晰明了的解释、示例和练习题，以帮助学生理解和掌握相关概念。

此外，该教材还提供了大量的实验和活动，以帮助学生将理论知识应用于实践中，并培养他们的实验技能和科学思维。

除了内容丰富之外，Cambridge IGCSE Physics教材还具有以下特点：
首先，该教材注重培养学生的科学思维和解决问题的能力。

在每个章节的结尾，都提供了一些问题和挑战，以帮助学生巩固所学知识并将其应用于实际情况中。

其次，该教材的语言简洁明了，易于理解。

作者使用了生动的示例和图表来说明复杂的物理概念，使得学生更容易理解和掌握相关知识点。

最后，该教材还提供了丰富的教学资源和支持。

教师可
以使用该教材配套的教师指南、试题库和在线资源来辅助教学，提高学生的学习效果。

总之，Cambridge IGCSE Physics教材是一套优秀的IGCSE物理教材，它的内容丰富、语言简洁明了、注重培养学生的科学思维和解决问题的能力。

使用该教材可以帮助学生全面掌握IGCSE物理考试所需的知识和技能，为未来的学习和职业生涯打下坚实的基础。