parallax

简明释义

英[ˈpærəlæks]美[ˈpærəlæks]

n. 视差；著名的影视编辑软件

复 数 p a r a l l a x e s

英英释义

单词用法

同义词

反义词

例句

1.Remove a fade counter from Parallax Wave: Remove target creature from the game if Parallax Wave is in play.

从时空震脉波上移去一个消退指示物：若时空震脉波在场，将目标生物移出游戏。

2.Since any parallax effect depends on point of view, a vector from a point on the surface to the eye is required.

因为任何视差效果都依赖于视点，所以就需要一个从表面到视点的向量。

3.At my guess the uncrossed parallax reached a maximum of about 1 foot (30cm).

在我的猜测非交叉视差达到最高约1英尺(30厘米)。

4.The MIT team solves this by dispensing with the usual (and restrictive) vertical-strip parallax barrier.

麻省理工小组放弃了普通的(并且是约束严格的)垂直条视差屏障，解决了这个问题。

5.As Venus was closer to the Earth, its parallax angle would be larger, and Halley worked out that by using Venus it would be possible to measure the Suns distance to 1 part in 500.

由于金星离地球更近，所以它的视差角会更大。哈雷计算出，利用金星可以测量出太阳与地球之间的距离，误差为五百分之一。

6.The HTC EVO 3d and LG Optimus 3d feature 11-centimeter displays that use parallax barrier screens to provide a 3-d effect.

宏达的EVO3d和LG的Optimus 3d 11厘米显示器的特点是利用视差格栅屏幕来实现3d效果。

7.The astronomer measured the star's distance using the technique of parallax (视差).

天文学家使用视差的方法测量了那颗星星的距离。

8.In photography, understanding parallax (视差) is crucial for accurate framing.

在摄影中，理解视差对于准确构图至关重要。

9.The engineer explained how parallax (视差) affects the accuracy of measurements in 3D modeling.

工程师解释了视差如何影响3D建模中的测量精度。

10.When using binoculars, parallax (视差) can cause objects to appear misaligned.

使用双筒望远镜时，视差可能导致物体看起来不对齐。

11.The concept of parallax (视差) is important in creating depth in graphic design.

在图形设计中，视差的概念对于创造深度很重要。

作文

Parallax is a term that describes the apparent displacement or difference in the position of an object viewed along different lines of sight. This phenomenon is not only significant in astronomy but also plays a crucial role in various fields such as photography, navigation, and even virtual reality. Understanding parallax (视差) can enhance our perception of depth and distance, allowing us to interact more effectively with the world around us. In astronomy, parallax (视差) is used to measure the distances to nearby stars. By observing a star from two different positions in Earth's orbit around the Sun, astronomers can calculate how much the star appears to shift against the background of more distant stars. This method is vital for determining the scale of the universe and has helped scientists to map out the cosmos more accurately. In photography, parallax (视差) affects how we capture images, especially when using viewfinders in cameras. The viewfinder may show a slightly different angle than what the lens captures, leading to a phenomenon known as parallax error. Photographers need to be aware of this when composing shots, particularly in close-up photography, where even minor shifts can significantly alter the final image. Understanding parallax (视差) helps photographers adjust their framing to ensure that the subject is captured as intended. Navigation is another field where parallax (视差) is essential. In the context of celestial navigation, sailors and aviators use the concept of parallax (视差) to determine their position by observing the angles between celestial bodies and the horizon. This technique allows them to triangulate their location on Earth, ensuring safe passage across vast oceans or through the skies. In recent years, parallax (视差) has gained importance in the realm of virtual reality (VR). VR applications often rely on creating a convincing sense of depth, which is achieved through the manipulation of parallax (视差). By presenting slightly different images to each eye, VR systems can simulate a three-dimensional environment, enhancing immersion and realism. This application of parallax (视差) demonstrates how the concept has evolved from a simple observational tool to a cornerstone of modern technology. Moreover, understanding parallax (视差) can also enrich our everyday experiences. For instance, when driving, we experience parallax (视差) as we look at objects at varying distances. Objects closer to us appear to move faster than those farther away, which is a direct result of parallax (视差). This innate understanding helps us gauge speed and distance, enhancing our ability to navigate through space safely. In conclusion, parallax (视差) is a multifaceted concept that transcends its basic definition. From its applications in astronomy to its significance in photography, navigation, and virtual reality, parallax (视差) profoundly impacts how we perceive the world. By comprehending this phenomenon, we not only improve our technical skills in various fields but also enrich our daily lives. The next time you observe a scene, remember the role of parallax (视差) in shaping your perception of reality.

视差是一个描述物体在不同视线方向上观察时所出现的表观位移或位置差异的术语。这种现象不仅在天文学中具有重要意义，而且在摄影、导航甚至虚拟现实等多个领域也发挥着关键作用。理解parallax（视差）可以增强我们对深度和距离的感知，使我们能够更有效地与周围的世界互动。 在天文学中，parallax（视差）用于测量附近恒星的距离。通过从地球围绕太阳的两个不同位置观察一颗恒星，天文学家可以计算出这颗恒星相对于更远恒星的背景位置的变化。这种方法对于确定宇宙的规模至关重要，并帮助科学家更准确地绘制出宇宙的地图。 在摄影中，parallax（视差）影响我们拍摄图像的方式，尤其是在使用相机取景器时。取景器可能显示与镜头捕捉到的角度略有不同，导致一种称为视差误差的现象。摄影师需要在构图时意识到这一点，特别是在特写摄影中，即使是微小的变化也会显著改变最终图像。理解parallax（视差）可以帮助摄影师调整构图，以确保主题如预期般被捕捉。 导航是另一个视差（视差）至关重要的领域。在天文导航的背景下，水手和飞行员利用parallax（视差）的概念通过观察天体与地平线之间的角度来确定他们的位置。这种技术使他们能够三角定位自己在地球上的位置，确保在广阔的海洋或天空中的安全通行。 近年来，parallax（视差）在虚拟现实（VR）领域的重要性日益增强。VR应用程序通常依赖于创造令人信服的深度感，这通过操控parallax（视差）来实现。通过向每只眼睛呈现略微不同的图像，VR系统可以模拟三维环境，增强沉浸感和真实感。parallax（视差）的这一应用展示了这一概念如何从简单的观察工具演变为现代技术的基石。 此外，理解parallax（视差）还可以丰富我们的日常体验。例如，在驾驶时，我们会在观察不同距离的物体时经历parallax（视差）。靠近我们的物体似乎移动得比远处的物体快，这直接是parallax（视差）的结果。这种内在的理解帮助我们判断速度和距离，提高我们在空间中安全导航的能力。 总之，parallax（视差）是一个多方面的概念，超越了其基本定义。从其在天文学中的应用到在摄影、导航和虚拟现实中的重要性，parallax（视差）深刻影响着我们对世界的感知。通过理解这一现象，我们不仅提高了在各个领域的技术技能，还丰富了我们的日常生活。下次当你观察一个场景时，请记住parallax（视差）在塑造你对现实的感知中所起的作用。