What are the different formations of the RGB phosphorus in pixel?

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In summary, the conversation discusses the different formations of RGB phosphorus in a pixel and the shapes they take when building up. It also explores the possible shapes within a circle and the effects of drawing a line and rotating it. The technological reason for this is attributed to subpixels and their arrangement within a pixel.
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armin11
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what are the different formations of the RGB phosphorus in pixel?What shapes they take when red and green and blue phosphorus are building up a pixel.for example there is a circle that each occupies one third of its area.and maybe in thet circle there are circles or square or other shapes?!although if we draw a line vertically (for example with paint)and rotate it there will be some pixel movements and it is obvious.why this happens?waht is the technological reason for this?
 
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As other posters in your other thread have mentioned, we do not do your homework for you--you need to put in your own effort first!

Here's a starting point (NOTE: Wikipedia is a starting point, not the end-all, be-all nor what you should be submitting!):
http://en.wikipedia.org/wiki/Pixel#Subpixels
 

FAQ: What are the different formations of the RGB phosphorus in pixel?

1. What is RGB phosphorus and why is it important in pixel formations?

RGB phosphorus is a type of phosphorus compound that is used in the creation of pixels. It is important because it emits red, green, and blue light which are the primary colors used to create various colors on electronic displays.

2. What are the different formations of RGB phosphorus in pixel technology?

The different formations of RGB phosphorus in pixel technology include individual pixels with red, green, and blue phosphorus layers, as well as a phosphorus layer that emits all three colors simultaneously. There are also variations in the arrangement and thickness of the phosphorus layers within a pixel.

3. How do the different formations of RGB phosphorus affect the quality of a display?

The different formations of RGB phosphorus can affect the quality of a display in terms of color accuracy, brightness, and overall resolution. A display with individual pixels for each color may have better color accuracy, while a display with a single phosphorus layer may have better brightness but lower resolution.

4. Are there any new developments in RGB phosphorus formations for pixel technology?

Yes, there are ongoing developments in RGB phosphorus formations for pixel technology. Some research is focused on creating more efficient and durable phosphorus compounds, while others are exploring alternative materials and technologies for creating pixels.

5. How does the use of RGB phosphorus in pixel technology compare to other color display technologies?

RGB phosphorus is one of the most commonly used technologies for color displays, along with LCD and OLED. Each technology has its own advantages and limitations, but RGB phosphorus is known for its relatively low cost and widespread use in various devices such as TVs, computer monitors, and smartphones.

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