base apparatus

简明释义

基数测量器械;

英英释义

例句

1.The base apparatus 基础设备 must be assembled correctly to ensure safety during the experiment.

必须正确组装<base apparatus>基础设备base apparatus>以确保实验期间的安全。

2.In order to conduct the test accurately, we need to set up the base apparatus 基础设备 properly.

为了准确进行测试，我们需要正确设置<base apparatus>基础设备base apparatus>。

3.The base apparatus 基础设备 consists of various essential tools required for the procedure.

该<base apparatus>基础设备base apparatus>由程序所需的各种基本工具组成。

4.Before demonstrating the experiment, the teacher reviewed the function of each part of the base apparatus 基础设备.

在演示实验之前，老师复习了<base apparatus>基础设备base apparatus>每个部分的功能。

5.The scientist ensured that the base apparatus 基础设备 was calibrated before starting the experiment.

科学家在开始实验之前确保<base apparatus>基础设备base apparatus>已校准。

作文

In the realm of scientific research and experimentation, the term base apparatus refers to the fundamental equipment and tools that serve as the foundation for conducting various experiments. These essential items are crucial for ensuring accuracy, reliability, and consistency in experimental results. The importance of having a solid base apparatus cannot be overstated, as it directly influences the quality of the data collected and the subsequent conclusions drawn from those data. For instance, in a chemistry lab, the base apparatus might include beakers, flasks, pipettes, and Bunsen burners. Each piece of equipment plays a specific role in facilitating chemical reactions and measurements. The beaker is used for mixing and holding liquids, while flasks are designed for heating substances or performing reactions. Pipettes allow for precise measurement of liquid volumes, and Bunsen burners provide a reliable heat source. Without these basic tools, conducting experiments would be nearly impossible, and the validity of scientific inquiry would be compromised.Moreover, in the field of physics, the base apparatus encompasses items such as pendulums, springs, and measuring devices like rulers and stopwatches. These instruments are vital for exploring concepts such as motion, force, and energy. For example, using a pendulum to study the effects of gravity requires a well-constructed base apparatus to ensure that measurements are accurate and repeatable. A poorly assembled setup could lead to erroneous conclusions about the nature of gravitational forces.The significance of a well-defined base apparatus extends beyond just the physical tools; it also involves the organization and arrangement of these tools within the laboratory space. A cluttered and disorganized workspace can hinder productivity and increase the likelihood of errors during experiments. Therefore, maintaining an orderly base apparatus is essential for fostering a conducive environment for scientific exploration.In educational settings, the concept of base apparatus takes on an additional layer of meaning. Students learning about scientific principles rely heavily on the availability and functionality of basic equipment. Schools and universities must invest in proper base apparatus to ensure that students have the opportunity to engage in hands-on learning experiences. This engagement not only enhances their understanding of scientific concepts but also cultivates critical thinking and problem-solving skills that are invaluable in today's world.Furthermore, advancements in technology have led to the development of sophisticated base apparatus that enhance traditional methods of experimentation. Digital sensors, automated systems, and computer simulations are becoming increasingly prevalent in laboratories, allowing for greater precision and efficiency in data collection and analysis. However, it is essential to remember that these high-tech tools still rely on the foundational principles established by their simpler counterparts. Thus, a strong grasp of the base apparatus is crucial for any aspiring scientist.In conclusion, the term base apparatus encompasses the essential tools and equipment that form the backbone of scientific experimentation. Whether in chemistry, physics, or educational contexts, a well-maintained base apparatus is vital for achieving accurate results and fostering a productive learning environment. As science continues to evolve, the importance of understanding and utilizing the base apparatus will remain a cornerstone of effective research and education.

在科学研究和实验的领域中，“base apparatus”一词指的是作为进行各种实验基础的基本设备和工具。这些基本项目对于确保实验结果的准确性、可靠性和一致性至关重要。拥有坚实的base apparatus的重要性不容小觑，因为它直接影响到所收集数据的质量以及从这些数据得出的后续结论。例如，在化学实验室中，base apparatus可能包括烧杯、瓶子、移液管和本生灯。每个设备在促进化学反应和测量中扮演着特定的角色。烧杯用于混合和盛放液体，而瓶子则设计用于加热物质或进行反应。移液管允许精确测量液体体积，本生灯提供可靠的热源。没有这些基本工具，进行实验几乎是不可能的，科学探究的有效性将受到损害。此外，在物理学领域，base apparatus包括摆、弹簧以及尺子和秒表等测量设备。这些仪器对于探索运动、力和能量等概念至关重要。例如，使用摆来研究重力的影响需要一个良好构建的base apparatus以确保测量的准确性和可重复性。一个组装不当的设置可能导致对重力性质的错误结论。良好定义的base apparatus的重要性不仅限于物理工具；它还涉及这些工具在实验室空间内的组织和排列。杂乱无章的工作空间会妨碍生产力，并增加实验过程中出错的可能性。因此，维护有序的base apparatus对于营造科学探索的有利环境至关重要。在教育环境中，base apparatus的概念又增添了一层意义。学习科学原理的学生在很大程度上依赖于基本设备的可用性和功能性。学校和大学必须投资于适当的base apparatus，以确保学生有机会参与实践学习体验。这种参与不仅增强了他们对科学概念的理解，还培养了在当今世界中不可或缺的批判性思维和问题解决技能。此外，技术的进步导致了复杂base apparatus的发展，这些设备增强了传统实验方法。数字传感器、自动化系统和计算机模拟在实验室中变得越来越普遍，使数据收集和分析的精确性和效率更高。然而，必须记住，这些高科技工具仍然依赖于其简单前身建立的基础原则。因此，对base apparatus的深入了解对任何有志于成为科学家的人员来说至关重要。总之，“base apparatus”一词包含了构成科学实验骨干的基本工具和设备。无论是在化学、物理还是教育背景中，良好维护的base apparatus对于实现准确的结果和促进富有成效的学习环境至关重要。随着科学的不断发展，理解和利用base apparatus的重要性将始终是有效研究和教育的基石。