time measuring resolution

简明释义

测时分辨力

英英释义

例句

1.The sensor's time measuring resolution 时间测量分辨率 affects its ability to detect rapid changes.

传感器的时间测量分辨率 时间测量分辨率影响其检测快速变化的能力。

2.The accuracy of the experiment depends on the time measuring resolution 时间测量分辨率 of the instruments used.

实验的准确性取决于所用仪器的时间测量分辨率 时间测量分辨率。

3.For scientific simulations, a finer time measuring resolution 时间测量分辨率 is crucial for accurate results.

对于科学模拟，细致的时间测量分辨率 时间测量分辨率对准确结果至关重要。

4.In high-speed photography, a higher time measuring resolution 时间测量分辨率 allows capturing faster events clearly.

在高速摄影中，更高的时间测量分辨率 时间测量分辨率可以清晰捕捉更快的事件。

5.The time measuring resolution 时间测量分辨率 of the stopwatch needs to be improved for precise timing.

秒表的时间测量分辨率 时间测量分辨率需要提高以实现精确计时。

作文

In the world of technology and science, precision is paramount. One of the critical aspects that determine how accurately we can measure time is the time measuring resolution. This term refers to the smallest increment of time that can be measured by a given instrument or system. For instance, a stopwatch that measures time to the nearest second has a time measuring resolution of one second. In contrast, a high-precision atomic clock can measure time with a resolution of billionths of a second. Understanding this concept is essential for various fields, including physics, engineering, and even everyday activities such as sports and cooking.The significance of time measuring resolution becomes evident when we consider its applications. In scientific research, experiments often require precise timing to ensure accurate results. For example, in particle physics, researchers need to measure the decay of particles with extreme precision. A higher time measuring resolution allows scientists to capture fleeting events that occur in fractions of a second, leading to groundbreaking discoveries about the fundamental nature of the universe.Moreover, in engineering, the time measuring resolution plays a vital role in designing systems that depend on precise timing. Take the case of GPS technology; it relies on satellites that transmit signals to receivers on Earth. The timing of these signals is crucial, as even a tiny error can lead to significant discrepancies in location calculations. Therefore, engineers must ensure that the time measuring resolution of the satellite systems is incredibly high to provide accurate positioning information.In addition to scientific and engineering contexts, time measuring resolution also has practical implications in daily life. Athletes, for instance, rely on precise timing during competitions. A difference of just a fraction of a second can determine the winner of a race. Consequently, sporting events use highly accurate timing devices that boast a high time measuring resolution to ensure fairness and accuracy in results.Another area where time measuring resolution is crucial is in the culinary arts. Chefs often need to time their cooking processes meticulously to achieve the desired results. Whether it's baking a cake or perfecting a steak, the timing can make all the difference. Using timers with a high time measuring resolution helps chefs avoid overcooking or undercooking their dishes, leading to better dining experiences.In conclusion, the concept of time measuring resolution is integral to our understanding of time measurement across various fields. Its applications in science, engineering, sports, and even cooking highlight its importance in ensuring precision and accuracy. As technology continues to advance, the demand for higher time measuring resolution will only increase, pushing the boundaries of what we can achieve in terms of time measurement. By appreciating the significance of this term, we can better understand the intricate workings of our world and the role that precise timing plays in it.

在科技和科学的世界中，精确性至关重要。决定我们能够多准确地测量时间的一个关键方面是时间测量分辨率。这个术语指的是给定仪器或系统可以测量的最小时间增量。例如，一个测量到秒的秒表，其时间测量分辨率为一秒。相反，一个高精度的原子钟可以以十亿分之一秒的分辨率测量时间。理解这个概念对于物理学、工程学，甚至日常活动如体育和烹饪等各个领域都是至关重要的。时间测量分辨率的重要性在于它的应用。在科学研究中，实验通常需要精确的计时以确保准确的结果。例如，在粒子物理学中，研究人员需要极其精确地测量粒子的衰变。更高的时间测量分辨率使科学家能够捕捉到在几分之一秒内发生的瞬间事件，从而导致对宇宙基本性质的突破性发现。此外，在工程学中，时间测量分辨率在设计依赖精确时序的系统时也起着至关重要的作用。以GPS技术为例；它依赖于向地球上的接收器发送信号的卫星。这些信号的时机至关重要，因为即使是微小的误差也会导致位置计算的重大差异。因此，工程师必须确保卫星系统的时间测量分辨率极高，以提供准确的位置定位信息。除了科学和工程背景外，时间测量分辨率在日常生活中的实际意义也很重要。例如，运动员在比赛中依赖精确的计时。仅仅是几分之一秒的差距就可能决定比赛的胜者。因此，体育赛事使用高精度的计时设备，这些设备具有高时间测量分辨率，以确保结果的公平性和准确性。另一个时间测量分辨率至关重要的领域是烹饪艺术。厨师经常需要精确地计时他们的烹饪过程，以达到预期的效果。无论是烘焙蛋糕还是完美煎制牛排，时机都能产生巨大的差异。使用具有高时间测量分辨率的计时器帮助厨师避免过熟或未熟，从而带来更好的用餐体验。总之，时间测量分辨率的概念对我们理解各个领域的时间测量至关重要。它在科学、工程、体育甚至烹饪中的应用突显了它在确保精确性和准确性方面的重要性。随着技术的不断进步，对更高时间测量分辨率的需求只会增加，推动我们在时间测量方面所能实现的边界。通过欣赏这个术语的重要性，我们可以更好地理解我们世界的复杂运作以及精确计时在其中所扮演的角色。