experimental-analogic method

简明释义

实验模拟法

英英释义

例句

1.The experimental-analogic method 实验类比法 can be applied in product development to test new ideas against existing successful models.

在产品开发中，可以应用实验类比法 experimental-analogic method 来测试新想法与现有成功模型的对比。

2.The experimental-analogic method 实验类比法 is particularly useful in fields like psychology, where researchers can compare behaviors in different contexts.

在心理学等领域，实验类比法 experimental-analogic method 特别有用，研究人员可以比较不同背景下的行为。

3.In scientific research, the use of the experimental-analogic method 实验类比法 allows researchers to draw parallels between known phenomena and new hypotheses.

在科学研究中，使用实验类比法 experimental-analogic method 使研究人员能够在已知现象和新假设之间建立类比。

4.Teachers often employ the experimental-analogic method 实验类比法 to help students understand complex concepts by relating them to everyday experiences.

教师们经常采用实验类比法 experimental-analogic method 来帮助学生通过与日常经验的关联来理解复杂概念。

5.Using the experimental-analogic method 实验类比法, scientists were able to predict the outcomes of their experiments based on previous results.

利用实验类比法 experimental-analogic method，科学家们能够根据之前的结果预测实验的结果。

作文

The process of learning and understanding complex concepts often requires innovative approaches. One such method that has gained attention in various fields, including education and scientific research, is the experimental-analogic method. This approach combines two powerful strategies: experimentation and analogy. By utilizing this dual framework, learners can better grasp intricate ideas and apply them effectively in real-world situations.To begin with, the experimental component of the experimental-analogic method allows individuals to engage directly with the material. Through hands-on experiments, students can observe phenomena, collect data, and draw conclusions based on their findings. This active participation not only enhances comprehension but also fosters critical thinking skills. For instance, in a science class, students might conduct experiments to understand chemical reactions. By manipulating variables and observing outcomes, they develop a deeper insight into the underlying principles governing those reactions.On the other hand, the analogic aspect of the experimental-analogic method involves drawing parallels between familiar concepts and new information. This technique leverages existing knowledge to facilitate understanding of more complex ideas. For example, when teaching the principles of electricity, an instructor might compare the flow of electric current to the flow of water in pipes. This analogy helps students visualize and relate to the concept, making it easier for them to grasp the intricacies of electrical circuits.The synergy between experimentation and analogy in the experimental-analogic method creates a robust learning environment. Students are not merely passive recipients of information; instead, they become active participants in their educational journey. This method encourages exploration and curiosity, prompting learners to ask questions and seek answers through both experimentation and analogy. In doing so, they cultivate a mindset that values inquiry and discovery.Moreover, the experimental-analogic method is not limited to the classroom. It can be applied across various domains, including business, engineering, and healthcare. For example, in product development, teams may use experimental techniques to test prototypes while also drawing analogies from previous successful products. This approach allows them to innovate while minimizing risks, as they can rely on proven concepts to guide their decisions.In conclusion, the experimental-analogic method represents a powerful approach to learning and problem-solving. By integrating experimentation with analogy, individuals can enhance their understanding of complex subjects and apply their knowledge in practical ways. As we continue to explore new methodologies in education and beyond, embracing the experimental-analogic method could lead to more effective and engaging learning experiences. Ultimately, this method not only enriches our comprehension but also empowers us to tackle challenges with creativity and confidence.

学习和理解复杂概念的过程通常需要创新的方法。其中一种在教育和科学研究等多个领域受到关注的方法是实验类比法。这种方法结合了两种强大的策略：实验和类比。通过利用这一双重框架，学习者可以更好地掌握复杂的思想，并在现实世界中有效地应用这些思想。首先，实验类比法的实验部分使个人能够直接参与材料的学习。通过动手实验，学生可以观察现象、收集数据，并根据他们的发现得出结论。这种主动参与不仅增强了理解能力，还培养了批判性思维技能。例如，在科学课上，学生可能会进行实验来理解化学反应。通过操控变量和观察结果，他们对支配这些反应的基本原理有了更深入的理解。另一方面，实验类比法的类比部分涉及在熟悉的概念和新信息之间建立联系。这一技术利用现有知识来促进对更复杂思想的理解。例如，在教授电力原理时，讲师可能会将电流的流动与管道中水的流动进行比较。这一类比帮助学生可视化并与该概念建立联系，使他们更容易掌握电路的复杂性。实验类比法中实验与类比的协同作用创造了一个强大的学习环境。学生不仅仅是信息的被动接受者；相反，他们成为自己教育旅程的积极参与者。这种方法鼓励探索和好奇心，促使学习者提出问题，并通过实验和类比寻找答案。这样，他们培养了一种重视探究和发现的心态。此外，实验类比法并不限于课堂。它可以应用于各个领域，包括商业、工程和医疗。例如，在产品开发中，团队可能会使用实验技术来测试原型，同时从以前成功的产品中进行类比。这种方法使他们能够在减少风险的同时进行创新，因为他们可以依靠经过验证的概念来指导决策。总之，实验类比法代表了一种强大的学习和解决问题的方法。通过将实验与类比结合，个人能够增强对复杂主题的理解，并以实际方式应用他们的知识。随着我们继续探索教育及其他领域的新方法，拥抱实验类比法可能会导致更有效和更具吸引力的学习体验。最终，这种方法不仅丰富了我们的理解，还使我们能够以创造力和自信心应对挑战。