complex material

简明释义

合成材料

英英释义

例句

1.The research focused on the behavior of complex material 复杂材料 under extreme conditions.

该研究集中于复杂材料在极端条件下的行为。

2.The engineer explained the properties of complex material 复杂材料 used in the construction.

工程师解释了用于建筑的复杂材料的特性。

3.In the lab, we conducted experiments with complex material 复杂材料 to test its durability.

在实验室，我们对复杂材料进行了耐久性测试实验。

4.Understanding complex material 复杂材料 is crucial for developing new technologies.

理解复杂材料对开发新技术至关重要。

5.Manufacturers often struggle with processing complex material 复杂材料 due to its unique properties.

制造商常常因其独特性质而难以加工复杂材料。

作文

In today's educational landscape, students are often faced with a variety of challenges when it comes to understanding and engaging with complex material. This term refers to subjects or topics that are intricate, multifaceted, and often require a higher level of cognitive processing to comprehend fully. 复杂材料 can be found in various fields such as science, mathematics, literature, and even social studies. The ability to navigate through complex material is essential for academic success and personal growth. One of the primary reasons why students struggle with complex material is due to the overwhelming amount of information presented to them. For instance, in a science class, students may encounter advanced theories and concepts that build upon one another. If they do not grasp the foundational knowledge, they will find it increasingly difficult to understand the more advanced complex material. Therefore, educators play a crucial role in breaking down these intricate topics into manageable parts, allowing students to develop a deeper understanding at their own pace.Moreover, the way complex material is presented can significantly impact a student's ability to engage with it. Traditional teaching methods may not resonate with all learners, particularly those who thrive in interactive or hands-on environments. Incorporating technology, group discussions, and practical applications can enhance the learning experience and make complex material more accessible. For example, using simulations in a chemistry class can help students visualize reactions that would otherwise seem abstract and daunting.Another important aspect of dealing with complex material is the development of critical thinking skills. Students must learn to analyze, synthesize, and evaluate information rather than simply memorizing facts. This active engagement with the material fosters a deeper understanding and encourages students to ask questions and seek clarification when needed. By cultivating a mindset that values inquiry and exploration, learners can approach complex material with confidence and curiosity.Furthermore, collaboration among peers can also aid in the comprehension of complex material. Study groups and collaborative projects allow students to share different perspectives and insights, which can lead to a richer understanding of the subject matter. When students explain concepts to one another, they reinforce their own knowledge while helping their peers grasp challenging ideas. This social aspect of learning emphasizes the importance of community and support in overcoming the hurdles posed by complex material.In conclusion, mastering complex material is a vital skill for students in their academic journey. By recognizing the challenges associated with intricate topics, educators can implement effective strategies to facilitate understanding. Through innovative teaching methods, the development of critical thinking skills, and collaborative learning experiences, students can become more adept at navigating complex material and ultimately succeed in their educational pursuits. As we continue to advance in knowledge and technology, the ability to tackle complex material will remain an essential component of lifelong learning and personal development.

在当今的教育环境中，学生在理解和参与复杂材料时常常面临各种挑战。这个术语指的是那些复杂、层次多且通常需要更高认知处理能力才能完全理解的主题或话题。复杂材料可以在科学、数学、文学甚至社会研究等多个领域找到。能够驾驭复杂材料对于学术成功和个人成长至关重要。学生之所以在处理复杂材料时感到困难，主要是因为所呈现的信息量过于庞大。例如，在科学课上，学生可能会遇到先进的理论和概念，这些理论和概念相互依赖。如果他们没有掌握基础知识，就会发现理解更高级的复杂材料越来越困难。因此，教育工作者在将这些复杂主题分解为可管理的部分方面发挥着至关重要的作用，使学生能够以自己的节奏深入理解。此外，复杂材料的呈现方式也会显著影响学生参与其中的能力。传统的教学方法可能并不适合所有学习者，尤其是那些在互动或实践环境中茁壮成长的学生。结合技术、小组讨论和实践应用可以增强学习体验，使复杂材料更易于接触。例如，在化学课上使用模拟实验可以帮助学生可视化反应，这在抽象和令人畏惧的情况下显得尤为重要。处理复杂材料的另一个重要方面是批判性思维技能的发展。学生必须学会分析、综合和评估信息，而不仅仅是记忆事实。这种对材料的主动参与促进了更深刻的理解，并鼓励学生在需要时提出问题和寻求澄清。通过培养重视探究和探索的心态，学习者可以自信和好奇地接近复杂材料。此外，同伴之间的合作也可以帮助理解复杂材料。学习小组和协作项目使学生能够分享不同的观点和见解，从而导致对主题内容更丰富的理解。当学生相互解释概念时，他们巩固了自己的知识，同时帮助同伴掌握具有挑战性的想法。这种学习的社会性强调了在克服复杂材料带来的障碍时社区和支持的重要性。总之，掌握复杂材料是学生学术旅程中的一项重要技能。通过认识到与复杂主题相关的挑战，教育工作者可以实施有效的策略来促进理解。通过创新的教学方法、批判性思维技能的发展以及协作学习体验，学生可以更熟练地驾驭复杂材料，最终在他们的教育追求中取得成功。随着我们在知识和技术上的不断进步，处理复杂材料的能力将始终是终身学习和个人发展的重要组成部分。