replication
简明释义
英[ˌreplɪˈkeɪʃn]美[ˌreplɪˈkeɪʃn]
n. 复制;回答;反响
英英释义
复制或再现某物的行为。 | |
In biology, the process by which genetic material or cells are duplicated. | 在生物学中,指遗传物质或细胞被复制的过程。 |
In research, the repetition of an experiment or study to verify results. | 在研究中,重复实验或研究以验证结果。 |
单词用法
DNA复制;去氧核醣核酸的复制 |
同义词
反义词
| 变异 | 研究显示结果存在显著的变异。 | ||
| 分歧 | 意见的分歧导致了一场激烈的辩论。 | ||
| 原创性 | Her originality in design sets her apart from other artists. | 她在设计上的原创性使她与其他艺术家区别开来。 |
例句
1.This applies to any session replication options.
对于任何会话复制选项都是如此。
2.Defined your desired replication model.
定义了所需的复制模型。
3.What about replication and failover scenarios?
复制和故障转移方案是什么?
4.Determines whether replication is supported.
确定是否支持复制。
5.Specify a replication queue map.
指定复制队列映射。
6.A number of studies reported there are unusual inverted repeats in the neighborhood of the replication origins of herpesviruses.
许多研究报告说,疱疹病毒复制起点附近存在异常的反向重复。
7.Create a replication queue map.
创建复制队列映射。
8.Start replication on subscriptions.
对订阅启动复制。
9.The scientist conducted an experiment to test the replication 复制 of previous results.
科学家进行了一项实验,以测试之前结果的复制。
10.In software development, replication 复制 of databases is crucial for data backup.
在软件开发中,数据库的复制对于数据备份至关重要。
11.Cloud services offer replication 复制 features to ensure data availability.
云服务提供复制功能以确保数据可用性。
12.The replication 复制 process in cells is essential for growth and repair.
细胞中的复制过程对生长和修复至关重要。
13.The replication 复制 of the study's findings was necessary to validate the research.
对研究结果的复制是验证研究必要的。
作文
In the realm of science and technology, the concept of replication (复制) plays a crucial role in validating research findings and ensuring the reliability of experiments. At its core, replication refers to the process of repeating an experiment or study to determine whether the original results can be consistently achieved. This practice is vital for establishing the credibility of scientific claims and fostering trust in the scientific community.One of the most significant aspects of replication is its ability to confirm or refute previous research. For example, when a groundbreaking study is published, it often sparks interest and excitement within the scientific community. However, without replication, the findings remain unverified and can lead to misconceptions or false conclusions. By conducting replication studies, researchers can either support the original findings or highlight discrepancies that may require further investigation.Moreover, replication serves as a safeguard against biases and errors that may have influenced the original study. Factors such as sample size, experimental design, and data analysis techniques can all impact the outcomes of research. A well-designed replication study takes these variables into account, providing a more comprehensive understanding of the phenomenon being investigated. This process not only enhances the robustness of scientific inquiry but also encourages transparency and accountability among researchers.In recent years, the importance of replication has gained heightened attention, particularly in fields such as psychology and medicine. Numerous high-profile cases have emerged where initial findings could not be successfully replicated, raising questions about the reliability of certain studies. This has led to calls for greater emphasis on replication efforts and a shift towards more rigorous research practices. Journals are now increasingly prioritizing studies that focus on replication, recognizing that these contributions are essential for advancing knowledge and understanding.Furthermore, the digital age has transformed the landscape of replication. With the advent of open science and data sharing, researchers are now able to access raw data and methodologies from previous studies. This transparency facilitates replication efforts, allowing other scientists to independently verify results and build upon existing research. The collaborative nature of modern science encourages a culture of replication, where researchers work together to strengthen the foundation of knowledge across disciplines.In conclusion, replication (复制) is an indispensable component of the scientific process. It not only validates findings but also promotes rigor and integrity within research. As the scientific community continues to grapple with the challenges of reproducibility, embracing the importance of replication will ultimately lead to more reliable and impactful discoveries. By fostering a culture that values replication, we can ensure that scientific progress remains grounded in evidence and truth, paving the way for future innovations and advancements.
在科学和技术领域,replication(复制)这一概念在验证研究结果和确保实验可靠性方面发挥着至关重要的作用。replication 的核心是重复一个实验或研究,以确定原始结果是否可以持续实现。这一实践对于建立科学主张的可信度以及促进科学界的信任至关重要。replication 的一个重要方面是它能够确认或否定先前的研究。例如,当一项突破性的研究发表时,通常会在科学界引发兴趣和兴奋。然而,如果没有 replication,这些发现将保持未经验证,可能导致误解或错误结论。通过进行 replication 研究,研究人员可以支持原始发现或突出可能需要进一步调查的差异。此外,replication 作为一种保障,防止可能影响原始研究的偏见和错误。样本大小、实验设计和数据分析技术等因素都可能影响研究结果。一个设计良好的 replication 研究考虑了这些变量,提供了对所研究现象更全面的理解。这一过程不仅增强了科学探究的稳健性,还鼓励研究人员之间的透明度和问责制。近年来,replication 的重要性受到越来越多的关注,特别是在心理学和医学等领域。出现了许多高调的案例,其中初步发现无法成功 replicate,引发了对某些研究可靠性的质疑。这导致人们呼吁更加重视 replication 工作,并向更严格的研究实践转变。期刊现在越来越优先考虑那些专注于 replication 的研究,认识到这些贡献对于推进知识和理解至关重要。此外,数字时代改变了 replication 的格局。随着开放科学和数据共享的出现,研究人员现在能够访问先前研究的原始数据和方法。这种透明性促进了 replication 工作,使其他科学家能够独立验证结果并在现有研究的基础上进行扩展。现代科学的协作性质鼓励了一种 replication 的文化,研究人员共同努力加强跨学科知识的基础。总之,replication(复制)是科学过程中的一个不可或缺的组成部分。它不仅验证发现,还促进研究的严谨性和完整性。随着科学界继续应对可重复性挑战,拥抱 replication 的重要性最终将导致更可靠和更具影响力的发现。通过培养一种重视 replication 的文化,我们可以确保科学进步基于证据和真理,为未来的创新和进步铺平道路。
