oscillographic
简明释义
英[ˌɒsɪləˈɡræfɪk]美[ˌɑsəˈlɪɡræfɪk]
adj. 示波器的(oscillograph 的形容词形式)
英英释义
Relating to or denoting an oscillograph, which is an instrument used to record oscillations, such as electrical signals, in a graphical form. | 与振荡记录仪相关或指代振荡记录仪,振荡记录仪是一种用于以图形形式记录振荡(如电信号)的仪器。 |
单词用法
振荡图机 | |
振荡图技术 | |
振荡图显示 | |
进行振荡图测量 | |
生成振荡图输出 | |
使用振荡图仪器 |
同义词
反义词
静态的 | The static image remained unchanged throughout the presentation. | 整个演示过程中,静态图像保持不变。 | |
静止的 | The stationary object did not move despite the strong winds. | 尽管有强风,静止的物体并没有移动。 |
例句
1.Trace nickel in waste solution from process of diamond cleaning by acid is determined by second order differential simple oscillographic voltammetry.
用二次微分简易示波伏安法测定了金刚石酸洗废液中的痕量镍。
2.Trace nickel in waste solution from process of diamond cleaning by acid is determined by second order differential simple oscillographic voltammetry.
用二次微分简易示波伏安法测定了金刚石酸洗废液中的痕量镍。
3.A new denoising algorithm is introduced and applied to remove noises from oscillographic signals of Glycyrrhizic acid's concentration.
提出一种新的去噪算法并应用于受噪声干扰的示波测定信号的去噪处理。
4.The article discusses the Research and Development on Oscillographic Titration.
本文综述了示波滴定的研究与进展。
5.Oscillographic titration is a new method for end point indication.
示波滴定是判断滴定终点的一种新方法。
6.The engineer used an oscillographic 示波器的 tool to analyze the electrical signals.
工程师使用了一个oscillographic 示波器的 工具来分析电信号。
7.During the experiment, we recorded the data with an oscillographic 示波图的 method.
在实验过程中,我们使用oscillographic 示波图的 方法记录数据。
8.The oscillographic 振荡图的 representation helped visualize the waveforms clearly.
该oscillographic 振荡图的 表示帮助清晰地可视化波形。
9.He presented his findings using oscillographic 示波器的 images to support his theory.
他使用oscillographic 示波器的 图像展示他的发现,以支持他的理论。
10.The oscillographic 波形图的 analysis revealed unexpected patterns in the data.
该oscillographic 波形图的 分析揭示了数据中意想不到的模式。
作文
In the field of physics and engineering, the term oscillographic refers to the use of oscillographs, which are instruments that record oscillations or waveforms. These devices are essential for analyzing various types of signals, such as electrical currents, sound waves, and even mechanical vibrations. The importance of oscillographic measurements can be seen in numerous applications, from telecommunications to medical diagnostics. One of the primary uses of oscillographic technology is in the realm of electronics. Engineers rely on oscillographs to visualize and measure the voltage and current changes over time in electronic circuits. By examining the oscillographic data, they can diagnose issues, optimize performance, and ensure the reliability of electronic devices. For example, when designing a new smartphone, engineers use oscillographic tools to analyze the signals produced by the device’s components, ensuring that they operate harmoniously without interference. Another significant application of oscillographic techniques is in the medical field. Electrocardiograms (ECGs) and electroencephalograms (EEGs) are two common examples where oscillographic methods are employed. An ECG records the electrical activity of the heart, while an EEG monitors the brain's electrical impulses. Both of these tests provide crucial information about a patient’s health, allowing doctors to detect abnormalities and make informed decisions about treatment. The oscillographic representation of these signals helps in understanding complex physiological processes and can lead to early diagnosis of conditions such as arrhythmias or epilepsy. Furthermore, oscillographic analysis is vital in the study of vibrations in mechanical systems. Engineers often use oscillographic tools to monitor the vibrations of machinery, which can indicate potential failures or maintenance needs. For instance, in the automotive industry, monitoring the vibrations of engines and other components can help identify issues before they lead to costly breakdowns. This proactive approach not only saves money but also ensures the safety and efficiency of vehicles on the road. The advancement of technology has significantly enhanced oscillographic capabilities. Modern oscillographs are equipped with digital features that allow for more precise measurements and easier data analysis. With the integration of software, users can manipulate oscillographic data to extract meaningful insights quickly. This evolution has made oscillographic tools more accessible to a wider range of professionals, from researchers to technicians. In conclusion, the term oscillographic encompasses a wide array of applications across different fields, highlighting its significance in both theoretical and practical contexts. Whether it is in electronics, medicine, or mechanical engineering, the ability to visualize and analyze oscillations is crucial for innovation and problem-solving. As technology continues to progress, the role of oscillographic methods will undoubtedly expand, paving the way for new discoveries and advancements in various industries.
在物理和工程领域,术语oscillographic指的是使用示波器,这是一种记录振荡或波形的仪器。这些设备对于分析各种类型的信号至关重要,例如电流、声波甚至机械振动。oscillographic测量的重要性可以在众多应用中看到,从电信到医疗诊断。 oscillographic技术的主要用途之一是在电子学领域。工程师依赖示波器来可视化和测量电子电路中电压和电流随时间的变化。通过检查oscillographic数据,他们可以诊断问题、优化性能,并确保电子设备的可靠性。例如,在设计新智能手机时,工程师使用oscillographic工具分析设备组件产生的信号,确保它们和谐地工作而不干扰。 oscillographic技术的另一个重要应用是在医疗领域。心电图(ECG)和脑电图(EEG)是两个常见的例子,其中采用了oscillographic方法。心电图记录心脏的电活动,而脑电图监测大脑的电冲动。这两项测试提供了关于患者健康的重要信息,使医生能够检测异常并做出明智的治疗决策。oscillographic信号的表示有助于理解复杂的生理过程,并可以导致早期诊断如心律失常或癫痫等疾病。 此外,oscillographic分析在机械系统振动研究中至关重要。工程师经常使用oscillographic工具监测机器的振动,这可能表明潜在的故障或维护需求。例如,在汽车工业中,监测发动机和其他组件的振动可以帮助识别问题,防止其导致昂贵的故障。这种主动的方法不仅节省了资金,还确保了道路上车辆的安全性和效率。 技术的进步显著增强了oscillographic的能力。现代示波器配备了数字功能,可以进行更精确的测量和更容易的数据分析。随着软件的集成,用户可以快速操纵oscillographic数据以提取有意义的见解。这一演变使得oscillographic工具对更广泛的专业人士更为可及,从研究人员到技术人员。 总之,术语oscillographic涵盖了不同领域的广泛应用,突显了其在理论和实践背景中的重要性。无论是在电子学、医学还是机械工程中,可视化和分析振荡的能力对于创新和解决问题至关重要。随着技术的不断进步,oscillographic方法的角色无疑将扩大,为各个行业的新发现和进步铺平道路。
文章标题:oscillographic的意思是什么
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