mathematics
简明释义
英[ˌmæθəˈmætɪks]美[ˌmæθəˈmætɪks]
n. 数学;数学运算
英英释义
单词用法
模糊数学 | |
应用数学 |
同义词
| 数学 | 她在数学方面表现出色,特别是在代数和几何方面。 | ||
| 微积分 | 微积分是高等数学的一个基本部分。 | ||
| 算术 | Understanding arithmetic is essential for solving everyday problems. | 理解算术对于解决日常问题至关重要。 | |
| 代数 | 他在几何方面遇到困难,但发现微积分更容易。 | ||
| 几何 | 数学常被认为是科学的语言。 |
反义词
| 艺术 | 她更喜欢艺术而不是数学。 | ||
| 人文学科 | The course covers various topics in the humanities, contrasting with the strict logic of mathematics. | 这门课程涵盖人文学科的各种主题,与数学的严格逻辑形成对比。 |
例句
1.Many students entering college have weak skills in mathematics.
许多刚上大学的学生数学能力很差。
2.Others describe important applications of mathematics.
还有一些书描述的是数学的运用。
3.Many students have insufficient science and mathematics background to gain entrance to engineering school.
许多学生没有足够的科学和数学知识背景得到进入工程学院的许可。
4.Mathematics was once dubbed the handmaiden of the sciences.
数学曾一度被视为各门科学的基础。
5.The mathematics of ancient Egypt were based on a decimal system.
古埃及数学以十进制为基础。
6.You can start again on mathematics, until is it is time to learn to plough.
你可以重新开始学习数学,直到该学犁地的时候。
7.This mathematics problem is extremely difficult.
这道数学题难度很大。
8.The new mathematics test will become the nemesis of teachers.
新的数学测试将会是对老师们的严重惩罚。
9.She decided to major in mathematics 数学 because she enjoyed solving complex problems.
她决定主修数学,因为她喜欢解决复杂的问题。
10.In engineering, a solid grasp of mathematics 数学 is essential for designing structures.
在工程学中,扎实的数学基础对于设计结构至关重要。
11.Teachers often use games to make mathematics 数学 more engaging for young learners.
教师们常常使用游戏来让年轻学习者更有趣地学习数学。
12.Many students find that their understanding of mathematics 数学 improves with regular practice.
许多学生发现,定期练习可以提高他们对数学的理解。
13.The principles of mathematics 数学 can be applied in various fields such as physics and economics.
数学原理可以应用于物理学和经济学等多个领域。
作文
Mathematics, often referred to as 数学, is a fundamental discipline that plays a crucial role in our everyday lives. From the moment we wake up and calculate how much time we have before leaving for work or school, to managing our finances and making decisions based on statistical data, 数学 is an integral part of our existence. It is more than just numbers and equations; it is a language that helps us understand the world around us.One of the most fascinating aspects of 数学 is its universality. Regardless of culture or language, the principles of 数学 remain consistent. For example, the Pythagorean theorem, which relates to the sides of a right triangle, holds true no matter where you are in the world. This universality allows people from different backgrounds to communicate and collaborate on scientific and engineering projects, leading to advancements that benefit society as a whole.Moreover, 数学 is the backbone of many fields, including physics, engineering, economics, and even social sciences. In physics, 数学 is used to describe the laws of nature, such as gravity and motion. Engineers apply 数学 to design structures, create algorithms, and solve complex problems. Economists utilize 数学 to analyze trends, make forecasts, and develop models that explain economic behavior. Without 数学, these fields would not be able to function effectively.In addition to its practical applications, 数学 also fosters critical thinking and problem-solving skills. Engaging with 数学 challenges students to think logically and systematically. They learn to break down complex problems into manageable parts, analyze data, and draw conclusions based on evidence. These skills are invaluable not only in academic settings but also in everyday decision-making.Despite its importance, many people struggle with 数学. This struggle often stems from anxiety and a lack of confidence in one's abilities. However, it is essential to recognize that 数学 is a skill that can be developed over time with practice and perseverance. By approaching 数学 with a positive mindset and seeking help when needed, individuals can improve their understanding and appreciation of this vital subject.Furthermore, technology has transformed the way we learn and engage with 数学. Online platforms and educational software provide interactive tools that make learning 数学 more accessible and enjoyable. Students can explore concepts at their own pace, receive instant feedback, and collaborate with peers from around the globe. This technological integration not only enhances the learning experience but also prepares students for a future where 数学 skills are increasingly in demand.In conclusion, 数学 is an essential discipline that influences various aspects of our lives. Its universal nature, practical applications, and ability to develop critical thinking skills make it a subject worthy of study and appreciation. As we continue to advance in a technology-driven world, the importance of 数学 will only grow. Embracing 数学 as a valuable tool for understanding and navigating our world is crucial for personal and societal development. Therefore, let us encourage curiosity and enthusiasm for 数学 in ourselves and others, paving the way for a brighter, more informed future.
数学,通常被称为数学,是一门基础学科,在我们的日常生活中发挥着至关重要的作用。从我们醒来的那一刻起,计算离开家去工作或上学还有多少时间,到管理我们的财务和根据统计数据做出决策,数学都是我们存在的一个不可或缺的部分。它不仅仅是数字和方程式;它是一种帮助我们理解周围世界的语言。数学最迷人的一个方面是它的普遍性。无论文化或语言如何,数学的原则始终保持一致。例如,毕达哥拉斯定理,它与直角三角形的边有关,无论你身在何处都是真实的。这种普遍性使来自不同背景的人能够在科学和工程项目上进行沟通与合作,从而推动社会整体的进步。此外,数学是许多领域的基础,包括物理学、工程学、经济学甚至社会科学。在物理学中,数学用于描述自然法则,例如重力和运动。工程师应用数学来设计结构、创建算法和解决复杂问题。经济学家利用数学分析趋势、做出预测并开发解释经济行为的模型。没有数学,这些领域将无法有效运作。除了其实际应用外,数学还培养了批判性思维和解决问题的能力。接触数学挑战学生逻辑和系统性思考的能力。他们学习将复杂问题分解为可管理的部分,分析数据,并基于证据得出结论。这些技能在学术环境中以及日常决策中都是无价的。尽管如此,许多人在学习数学时却感到困难。这种挣扎往往源于焦虑和对自己能力的缺乏信心。然而,必须认识到数学是一项可以通过时间和练习来发展的技能。通过积极的心态看待数学并在需要时寻求帮助,个人可以提高对这一重要学科的理解和欣赏。此外,技术改变了我们学习和接触数学的方式。在线平台和教育软件提供了互动工具,使学习数学变得更加便捷和愉悦。学生可以按照自己的节奏探索概念,获得即时反馈,并与来自全球的同龄人合作。这种技术整合不仅增强了学习体验,也为学生未来日益增长的数学技能需求做好了准备。总之,数学是一门影响我们生活各个方面的重要学科。它的普遍性、实际应用以及发展批判性思维技能的能力使其成为值得研究和欣赏的学科。随着我们在技术驱动的世界中不断进步,数学的重要性只会增加。接受数学作为理解和驾驭我们世界的宝贵工具,对个人和社会的发展至关重要。因此,让我们鼓励自己和他人对数学的好奇心和热情,为更光明、更有见识的未来铺平道路。
