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1. #16 9 RESOLUTION CALCULATOR MOVIE#
2. #16 9 RESOLUTION CALCULATOR 1080P#
3. #16 9 RESOLUTION CALCULATOR FULL#
4. #16 9 RESOLUTION CALCULATOR CODE#

How do you fit 1.85 movies on a 1.78 screen?

So, the bottom line is that when planning your home theater, it is a good idea to anticipate you will be viewing a reasonable amount of video and film content in either 1.78 or 1.85, as well as the wider 2.4 format. Willie Nelson/Wynton Marsalis play Ray Charles Not only are there scores of movies on Blu-ray in 1.85, but live music concerts appear in this format as well. This format has been popular for a long time, so there is a huge library of 1.85 films on the market. Some of the concerts on Blu-ray that are done in 1.78 include.Īnother format that is very close in aspect ratio to 1.78 is 1.85.

#16 9 RESOLUTION CALCULATOR 1080P#

Once you get into 1080p home theater, many people like to experience music concerts in HD on the big screen. As examples, here are some movies that are either done in 1.78, or have been modified to 1.78 for Blu-ray.īut beyond some films and all of the HDTV broadcast programming that are done in 1.78, many live music concerts on Blu-ray are in 1.78. A few, including some new and popular titles, are done in plain ol' 16:9 (1.78). Many people assume that all modern films are being done in the super widescreen 2.4 format. So 16:9 must be best for HDTV broadcast, and 2.4 Cinemascope must be best for movies, right? If you select a 2.4 screen, all of your 16:9 material will be "pillar-boxed" in the center of the screen with black columns on each side. For example, if you select a 16:9 screen, all of your 2.4 format movies will have black bars top and bottom. 2.4, you are really deciding how the various film and video formats will appear on your screen. So in choosing between a screen aspect ratio of 1.78 vs.

If you don't, there are several ways to stretch, manipulate, or crop video images to get them to fill a 16:9 screen and eliminate the black bars.) (By the way, we're assuming you want to see the material you watch in its correct original aspect ratio, as the director created it. In both of those cases, the screen frame will match the picture precisely, and no black bars will exist.

#16 9 RESOLUTION CALCULATOR MOVIE#

The only time you don't get black bars is if you are viewing video or film shot in the format of the screen you are using-either a film done in 1.78 displayed on a 16:9 screen, or a movie shot in 2.4 on a 2.4 Cinemascope screen. So no matter what aspect ratio your screen is, you will always end up with black bars at the top and bottom of some material, and black pillars at the sides of other material. Here is a simple fact of life: Videos and movies are made in a variety of different aspect ratios. Many people prefer it because it matches the aspect ratio of a lot of movies being produced today. This is a wider format than standard 16:9. But if you are planning to use a projector and screen, you have another option, which is 2.4:1, commonly known as the Cinemascope format. Though they come in a wide variety of sizes, they are all 16:9 aspect ratio.

#16 9 RESOLUTION CALCULATOR CODE#

With the above code you should be able to adjust the on-screen position based on top and left margins.If you are going to use a flatscreen HDTV for your home theater, you are stuck with the 16:9 format for better or for worse. if it's not then calculate the top margin Now check if image height is the same as the physical screen height because 500 / 16 is 31 with a remainder of 4. In the case of 500 width, the remainder will be 4 pixels Int yPixels = 320 // Physical number of pixels on Y axis int xPixels = 500 // Physical number of pixels on X axis In this case we need to know what the modulus (remainder) is when we divide the screen width by 16.

#16 9 RESOLUTION CALCULATOR FULL#

In order to get equal margin heights, divide by 2.īasically you can use full screen width but add a top and bottom margin of 25 pixels each.ĮDIT: Now let's suppose you have an unusual screen size example 500x320 (unlikely but who knows?). With a screen height of 320 pixels but a desired aspect ratio of 16:9 you need to create blank top and bottom margins with a total of 320 - 270 = 50. This means you can use the full width of 480 but you need to adjust the height as 270 is less than 320. If you divide 480 / 16 the result is exactly 30. Ideally you want to be working with the width being as close as possible to the '16' of your desired 16:9 ratio.