basic parameter

简明释义

1. 基本参量; 2. 基本参数; 3. 基准参数;

英英释义

例句

1.Adjusting the basic parameter 基本参数 of the machine can significantly improve its performance.

调整机器的基本参数可以显著提高其性能。

2.Before running the simulation, make sure all basic parameter 基本参数 settings are correct.

在运行模拟之前，请确保所有基本参数设置正确。

3.The engineer explained that the basic parameter 基本参数 for the project was the budget limit.

工程师解释说，该项目的基本参数是预算限制。

4.In order to configure the software, you need to set the basic parameter 基本参数 for the database connection.

为了配置软件，您需要设置数据库连接的基本参数。

5.The basic parameter 基本参数 for this experiment is the temperature at which the reaction occurs.

本实验的基本参数是反应发生的温度。

作文

In the field of science and engineering, understanding the concept of basic parameter is crucial for effective problem-solving and analysis. A basic parameter refers to a fundamental quantity or characteristic that defines the behavior of a system or process. For example, in physics, parameters such as mass, velocity, and acceleration are considered basic parameters because they are essential for describing motion. Similarly, in engineering, dimensions, material properties, and environmental conditions serve as basic parameters that engineers must account for when designing structures or systems.When conducting experiments or simulations, researchers often start by identifying the basic parameters relevant to their study. This identification process is critical because it helps to narrow down the focus and ensures that the most significant factors are being considered. For instance, if a scientist is studying the effects of temperature on the rate of a chemical reaction, they would identify temperature as a basic parameter that must be controlled and measured throughout the experiment.Moreover, the relationship between various basic parameters can significantly impact the outcomes of experiments and real-world applications. For example, in the realm of fluid dynamics, the interaction between pressure, velocity, and density are interlinked basic parameters that determine how fluids behave under different conditions. Understanding these relationships allows scientists and engineers to make accurate predictions and design more efficient systems.In addition to their importance in scientific research, basic parameters also play a vital role in data analysis and modeling. When creating mathematical models to simulate real-world phenomena, practitioners must carefully select the basic parameters that will be included in their equations. The accuracy of these models depends heavily on the correct identification and measurement of these key variables. For instance, in climate modeling, parameters such as greenhouse gas concentrations, solar radiation, and ocean temperatures are basic parameters that influence climate predictions. If any of these parameters are inaccurately represented, the model's predictions may be flawed.Furthermore, in the business world, basic parameters can refer to key performance indicators (KPIs) that organizations use to measure success. These KPIs, which might include sales figures, customer satisfaction scores, and market share, serve as basic parameters that help businesses assess their performance and make informed strategic decisions. By regularly monitoring these basic parameters, companies can adapt their strategies to improve outcomes and achieve their objectives.In conclusion, the concept of basic parameter transcends various fields, including science, engineering, and business. Whether it is a physical quantity in an experiment, a variable in a mathematical model, or a KPI in a corporate setting, understanding and managing basic parameters is essential for success. As we continue to explore complex systems and processes, the ability to identify and manipulate these fundamental characteristics will remain a cornerstone of effective analysis and decision-making.

在科学和工程领域，理解基本参数的概念对于有效的问题解决和分析至关重要。基本参数指的是定义系统或过程行为的基本量或特征。例如，在物理学中，质量、速度和加速度等参数被视为基本参数，因为它们对于描述运动至关重要。同样，在工程中，尺寸、材料属性和环境条件作为基本参数，工程师在设计结构或系统时必须考虑这些因素。在进行实验或模拟时，研究人员通常首先识别与其研究相关的基本参数。这一识别过程至关重要，因为它有助于缩小焦点，并确保考虑到最重要的因素。例如，如果一位科学家正在研究温度对化学反应速率的影响，他们将识别温度作为必须在整个实验中控制和测量的基本参数。此外，各种基本参数之间的关系可能会显著影响实验结果和现实应用。例如，在流体动力学领域，压力、速度和密度之间的相互作用是决定流体在不同条件下行为的相互关联的基本参数。理解这些关系使科学家和工程师能够做出准确的预测，并设计更高效的系统。除了在科学研究中的重要性之外，基本参数在数据分析和建模中也发挥着关键作用。在创建数学模型以模拟现实现象时，实践者必须仔细选择将包含在其方程中的基本参数。这些模型的准确性在很大程度上依赖于对这些关键变量的正确识别和测量。例如，在气候建模中，温室气体浓度、太阳辐射和海洋温度等参数是影响气候预测的基本参数。如果这些参数中的任何一个被不准确地表示，模型的预测可能会出现缺陷。此外，在商业世界中，基本参数可以指组织用来衡量成功的关键绩效指标（KPI）。这些KPI，可能包括销售数字、客户满意度评分和市场份额，作为帮助企业评估绩效并做出明智战略决策的基本参数。通过定期监测这些基本参数，公司可以调整其策略以改善结果并实现目标。总之，基本参数的概念超越了科学、工程和商业等多个领域。无论是在实验中的物理量、数学模型中的变量，还是企业环境中的KPI，理解和管理基本参数对于成功至关重要。随着我们继续探索复杂的系统和过程，识别和操纵这些基本特征的能力将始终是有效分析和决策的基石。