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# TV Screen Size

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## TV Sizes

### What you should know about TV screen size

TV screen sizes range from 24 inch to over 100 inches with 65 in. becoming the standard for consumers.

How to decide what TV screen size to buy

4. The weight of the TV

Your budget may be a consideration because as screen sizes increase so do the costs. Your room size is a consideration due to viewing distances. Also consider the weight of a TV. Larger screens tend to weigh more so handling, transport and mounting them can be an issue.

How to measure TV screen size

Place a tape measure in one corner of the screen, only the screen, not the TV frame itself. You want to measure only the viewing area, not the TV itself. Now extend diagonally to the opposite corner and see how many inches it measures.

How to calculate true screen size for a TV

When you look for a TV today, one of the first things you notice is how they are designated by screen size. Most TVs are 32 inch, 40 inch, 46 inch, 50 inch or larger. But what exactly is this measurement?

It is the distance from one corner across to the opposite corner on a diagonal. This is the standard way of designating screen size, a diagonal line across the screen. But is this a true way to measure screen size?

Someone who had a traditional analog TV with a 20 inch screen and bought an HDTV with a 40 inch screen would assume that their TV screen just doubled in size. But did it really? Lets take a closer look. Simple math can be used to calculate true screen size for a TV.

First a small note to consider. TV screen sizes are not exact. A TV may be designated as a 20 inch when in fact the screen is 20.5 inches across or it could be 19.5 inches, close but not exact.

Calculate True Screen Size for a TV

Width and height of TV screen

Measure the distance across the bottom of the screen (the screen only, not the TV). This is the width of the screen. Now measure the distance from the bottom of the screen to the top. This is the height of the screen. To calculate the total screen area (total viewing area), multiply the width times the height.

For example, if the TV screen measures 16 inches wide and 12 inches high, then the total screen area is 16 times 12 or 192 sq. inches. 192 sq. inches would be typical for an analog TV in the 20 inch size.

The screen size of this TV, 16 by 12, says a lot about what is known as aspect ratio. The aspect ratio of traditional analog TV sets is 4:3 or 4 units wide by 3 units high and in our example we can see this is true. 16 inches wide by 12 inches high is a 4 to 3 ratio. (Divide 16 by 4= 4 and divide 12 by 4= 3) or (Divide 16 by 12= 1.33) 4 to 3 is the same as 1.33 to 1. This is how analog TV screens look, like a rectangle but fairly close to a square.

HDTV screens on the other hand are much wider than they are high. HDTVs have a 16:9 aspect ratio. 16 units wide by 9 units high. Because HDTVs have this 16 to 9 aspect ratio, comparisons to the old analog TV screens of the 4 to 3 aspect ratio are like comparing apples and oranges.

But now lets look at the 40 inch HDTV. Measure the screen width and then measure the screen height. A 40 inch HDTV screen measures roughly 40 inches at the diagonal. We can use math to make sure the calculations are correct. For this example, the HDTV screen will measure 35 inches wide and 19.7 inches high. This should be a 16:9 ratio. 16 to 9 is the same as 1.78 to 1 meaning the HDTV screen is 1.78 times as wide as it is high (divide 16 by 9= 1.78 and divide 9 by 9= 1) or (divide 35 by 19.7= 1.78). Now to calculate total screen area, multiply width times height or 35 times 19.7= 689.5 sq. inches. Much bigger than the 192 sq. inches of the analog TV. In fact the total screen area of the 40 inch HDTV is more than double, yes, more than triple the size of the 20 inch analog TV. That's right, the 40 inch HDTV has a total screen area of 3.59 times larger than the 20 inch analog TV.

How to Calculate Viewing Distance

A formula for determining the optimal size TV based on how far you want to sit from the screen divides the viewing distance by approximately 1.5 to 2. If your viewing area is 8 feet away from the screen, an HDTV in the 60″ range will get you the optimal cinematic experience. This is for 1080p televisions.

6 feet viewing would be 6 times 12 equals 72 divided by 1.5 equals 48 inches so a 50 inch screen would be good. 8 feet viewing would be 8 times 12 is 96 inches divided by 1.5 equals 64 inches so a 65 inch screen would be good. So for ten feet viewing, 10 times 12 is 120 inches divided by 1.5 equals 80 inches so a 75 inch screen would be good.

Nearly all new TV screens are 4k Ultra-high-definition TVs. An increasing number are 8K resolution screens. The new 4K Ultra HDTVs have 4 times the resolution of the 1080p display. Remember your media source must be 4K to get 4K resolution on the TV. For example, your 8K TV will only show you 8K resolution if your source is in 8K and currently there is very little 8K source media.

The 4K and 8K screens have smaller pixels than 1080p so pixelation is less of a concern. So you should possibly sit closer to the screen for the best experience. The 1.5 to 2 number changes for the 4K and 8K screens to 1 to 1.5 to approximate the best TV size.

Interesting math for TV screens

The Pythagorean Theorem was one of the earliest theorems known to ancient civilizations. This famous theorem is named for the Greek mathematician and philosopher, Pythagoras. The Pythagorean Theorem is Pythagoras' most famous mathematical contribution. The Pythagorean Theorem is a statement about triangles containing a right angle. The Pythagorean Theorem states that:

"The area of the square built upon the hypotenuse of a right triangle is equal to the sum of the areas of the squares upon the remaining sides." In other words:

a² + b² = c²

Applying this to TV screens, anyone can check the validity of screen measurements. By drawing a line diagonal across the TV screen, the screen forms two triangles. The width is "A" and the height is "B" and the diagonal is "C". So if you know the length of the diagonal or if you know the length of the width and height, you can calculate the remaining side. Since HDTVs have a 16:9 aspect ratio, you can check the measurements.

In the example above for the 40 inch HDTV: "A" is 35 inches and "B" is 19.7 inches and "C" is roughly 40 inches. "A" becomes 35 times 35 or 1225. "B" becomes 19.7 times 19.7 or 388 and "C", the screen's diagonal size, is stated as roughly 40 times 40 or 1600. Therefore 1225 plus 388 equals 1613. So then the square root of 1613 is 40.16 which would be the exact diagonal measurement. Any simple calculator has the square root key to give you the answer.

Compare analog TV with HDTV of the same screen size

If you own a 32 inch analog TV and want to get an HDTV with the same screen size, you may be surprised to find out you actually have lost screen viewing area. That's right, an HDTV with a screen size of 32 inches has less screen size than an analog TV of the same screen size. The HDTV has a 16 to 9 aspect ratio and the analog TV has a 4 to 3 aspect ratio. Even though both TVs have the same screen diagonal measurement, the screen area is a little different. Let's calculate this.

A 32 inch analog TV screen measures 25.6 inches wide and 19.2 inches high and 32 inches across diagonally. The aspect ratio of 1.33 to 1 (or 4 to 3) is calculated as 25.6 divided by 19.2 which equals 1.33 and the total viewing area is calculated as 25.6 times 19.2 or 491.52 square inches. Checking against the Pythagorean Theorem, 25.6 squared is 655.36 and 19.2 squared is 368.64. Then 32 squared is 1024. 655.36 plus 368.64 equals 1024.

Now let's compare the HDTV with a 32 inch screen size. The 32 inch HDTV is 28 inches wide and 15.7 inches high. Therefore the total viewing area is 28 times 15.7 or 439.6 sq. inches. So the 32 inch HDTV has 51.92 sq. inches less viewing area than the 32 inch analog TV! (491.52 minus 439.6) So the HDTV screen is actually 10.6 percent smaller in total viewing area.

Therefore when you buy an HDTV to replace your analog TV, and you want to make sure you do not lose screen viewing area, you need to buy an HDTV with a screen size slightly larger than your analog TV. Always round up when close in size. HDTV screen sizes run from 19 inch up to 65 inch and more but typically most sets are in the range of 26, 32, 37, 40, 42, 46, 50, or 55 inches. Anything bigger gets to be too much to handle and weigh too much, particularly with Plasma displays. Organic LED HDTV screens may eventually solve those problems however. So if you have a 27 inch analog TV, get at least a 32 or 40 inch HDTV.

Watching older video on an HDTV - Screen size considerations

Watching 4:3 content on an HDTV (16:9) is not a good match but it can be done. Older video, meaning anything before 1997, on broadcast TV, VHS, Laser Disc etc. was generally 4:3 and showing this on a 16:9 HDTV display results in a mis-match. 4:3 content was designed to be displayed on a 4:3 TV, meaning an analog NTSC TV. When you try to show this older video on an HDTV, certain compromises have to happen. Thus the appearance of the "black bars". The black bars can appear on the top and bottom (letterbox), left and right (pillarbox) or on all four sides at once.

How to get rid of black bars

Getting the black bars off your screen is usually a compromise and can be done by stretching or expanding across your screen. Depending on how your devices are designed, you should be able to adjust the aspect ratio of the source (DVD player, cable box etc.) and/or the TV in order to change the way the video is displayed. A DVD player for example should have a setting for adjusting the aspect ratio (4:3 - 4:3 pan scan - 16:9) and your TV should have a button on the remote control or in a menu setting to adjust aspect ratio. It may be called focus, video, zoom, picture, setting, full, display or any number of other labels but functionally perform an adjustment so that the video can be expanded to fill the screen.

The issue here is picture distortion. This is the compromise. You sacrifice picture quality sometimes in order to get rid of the black bars. Even newer video can produce black bars on a TV if the video content was produced in a wider aspect ratio than 16:9. In some cases, when the video was produced in a widescreen format, wider than 16:9, it may be impossible to completely get rid of the black bars.

Sometimes the adjustments seem counter-intuitive but just keep trying combinations until you get what you want. For example a DVD in widescreen format displayed on a 4:3 TV may need the 16:9 setting in the player in order to show up on the TV without black bars. You may have to drill down in the on-screen menus for the DVD player in order to set the aspect ratio.

Also make sure the DVD is not playing while making the adjustment. If the DVD was produced in or modified to 4:3 then it will fill the screen of a 4:3 TV. Some DVDs have both 4:3 and 16:9 available. One on a side. Flip the DVD over and you may find the widescreen version. If the DVD cover says the aspect ratio of the movie is 2.35:1 or 2.39:1 then you may have to live with some small black bars as this is very widescreen. If you do not like black bars, try to pick your DVD in a format appropriate for your TV. A non-widescreen DVD would be better for an analog TV. If however you want to see the movie as intended, widescreen is better, but you may have to live with the black bars unless you expand the video, producing some distortion.

TV screen sizes - calculating viewing area for different viewing modes

32 inch HDTV and 19 inch analog TV

Comparing a 32 inch 16:9 TV to a 19 inch 4:3 TV

32 inch 16:9 Set - 19 inch 4:3 Set

4:3 (1.33:1) NTSC mode [89.4% larger] - 4:3 (1.33:1) standard mode

Your viewing area is 20.9 in(w) x 15.7 in(h)
Total viewing area is 328.13 sq in.
This is the equivalent of a 26.1 inch 4:3 TV

Your viewing area is 15.2 in(w) x 11.4 in(h)
Total viewing area is 173.28 sq in.

16:9 (1.78:1) native mode [239.0% larger] - 16:9 (1.78:1) letterbox mode
Your viewing area is 27.9 in(w) x 15.7 in(h)
Total viewing area is 438.03 sq in.
This utilizes the full display of the 16:9 TV

Your viewing area is 15.2 in(w) x 8.5 in(h)
The diagonal size is 17.4 in
Total viewing area is 129.2 sq in.
This is the equivalent of a 17.4 inch 16:9 TV
Your viewing area is decreased by 25.4% from 4:3 mode

16:9 (1.85:1) letterbox mode [238.0% larger] - 16:9 (1.85:1) letterbox mode
Your viewing area is 27.9 in(w) x 15.1 in(h)
The diagonal size is 31.7 in
Total viewing area is 421.29 sq in.
Total area is 16.7 sq in. (3.8%) smaller than 1.78:1
Your viewing area is 15.2 in(w) x 8.2 in(h)

The diagonal size is 17.3 in
Total viewing area is 124.64 sq in.
Your viewing area is decreased by 28.1% from 4:3 mode

16:9 (2.35:1) letterbox mode [236.0% larger] - 16:9 (2.35:1) letterbox mode
Your viewing area is 27.9 in(w) x 11.9 in(h)
The diagonal size is 30.3 in
Total viewing area is 332.01 sq in.
Total area is 106.0 sq in. (24.2%) smaller than 1.78:1

Your viewing area is 15.2 in(w) x 6.5 in(h)
The diagonal size is 16.5 in
Total viewing area is 98.8 sq in.
Your viewing area is decreased by 43.0% from 4:3 mode

40 inch HDTV and 27 inch analog TV

Comparing a 40 inch 16:9 TV to a 27 inch 4:3 TV

40 inch 16:9 Set - 27 inch 4:3 Set

4:3 (1.33:1) NTSC mode [46.2% larger] 4:3 (1.33:1) standard mode
Your viewing area is 26.1 in(w) x 19.6 in(h)
Total viewing area is 511.56 sq in.
This is the equivalent of a 32.7 inch 4:3 TV
Your viewing area is 21.6 in(w) x 16.2 in(h)
Total viewing area is 349.92 sq in.

16:9 (1.78:1) native mode [161.7% larger] 16:9 (1.78:1) letterbox mode
Your viewing area is 34.9 in(w) x 19.6 in(h)
Total viewing area is 684.04 sq in.
This utilizes the full display of the 16:9 TV
Your viewing area is 21.6 in(w) x 12.1 in(h)
The diagonal size is 24.8 in
Total viewing area is 261.36 sq in.
This is the equivalent of a 24.8 inch 16:9 TV
Your viewing area is decreased by 25.3% from 4:3 mode

16:9 (1.85:1) letterbox mode [161.0% larger] 16:9 (1.85:1) letterbox mode
Your viewing area is 34.9 in(w) x 18.9 in(h)
The diagonal size is 39.7 in
Total viewing area is 659.61 sq in.
Total area is 24.4 sq in. (3.6%) smaller than 1.78:1
Your viewing area is 21.6 in(w) x 11.7 in(h)
The diagonal size is 24.6 in
Total viewing area is 252.72 sq in.
Your viewing area is decreased by 27.8% from 4:3 mode

16:9 (2.35:1) letterbox mode [161.7% larger] 16:9 (2.35:1) letterbox mode
Your viewing area is 34.9 in(w) x 14.9 in(h)
The diagonal size is 37.9 in
Total viewing area is 520.01 sq in.
Total area is 164.0 sq in. (24.0%) smaller than 1.78:1
Your viewing area is 21.6 in(w) x 9.2 in(h)
The diagonal size is 23.5 in
Total viewing area is 198.72 sq in.
Your viewing area is decreased by 43.2% from 4:3 mode

50 inch HDTV and 32 inch analog TV

Comparing a 50 inch 16:9 TV to a 32 inch 4:3 TV

50 inch 16:9 Set - 32 inch 4:3 Set

4:3 (1.33:1) NTSC mode [63.0% larger] 4:3 (1.33:1) standard mode
Your viewing area is 32.7 in(w) x 24.5 in(h)
Total viewing area is 801.15 sq in.
This is the equivalent of a 40.9 inch 4:3 TV
Your viewing area is 25.6 in(w) x 19.2 in(h)
Total viewing area is 491.52 sq in.

16:9 (1.78:1) native mode [189.8% larger] - 16:9 (1.78:1) letterbox mode
Your viewing area is 43.6 in(w) x 24.5 in(h)
Total viewing area is 1068.2 sq in.
This utilizes the full display of the 16:9 TV

Your viewing area is 25.6 in(w) x 14.4 in(h)
The diagonal size is 29.4 in
Total viewing area is 368.64 sq in.
This is the equivalent of a 29.4 inch 16:9 TV
Your viewing area is decreased by 25.0% from 4:3 mode

16:9 (1.85:1) letterbox mode [191.3% larger] - 16:9 (1.85:1) letterbox mode
Your viewing area is 43.6 in(w) x 23.6 in(h)
The diagonal size is 49.6 in
Total viewing area is 1028.96 sq in.
Total area is 39.2 sq in. (3.7%) smaller than 1.78:1

Your viewing area is 25.6 in(w) x 13.8 in(h)
The diagonal size is 29.1 in
Total viewing area is 353.28 sq in.
Your viewing area is decreased by 28.1% from 4:3 mode

16:9 (2.35:1) letterbox mode [190.6% larger] 16:9 (2.35:1) letterbox mode
Your viewing area is 43.6 in(w) x 18.6 in(h)
The diagonal size is 47.4 in
Total viewing area is 810.96 sq in.
Total area is 257.2 sq in. (24.1%) smaller than 1.78:1

Your viewing area is 25.6 in(w) x 10.9 in(h)
The diagonal size is 27.8 in
Total viewing area is 279.04 sq in.
Your viewing area is decreased by 43.2% from 4:3 mode

Recommended viewing distances

For 4:3 TV displays, the standard for viewing distance is from 3 to 6 times the width of the screen.  So if you have a 27 inch screen, you can sit about 7 feet to 13 feet away. But with HDTV, you can sit closer to the TV set because it offers more detail than analog TV. You can actually sit as close as 1.5 times times the screen’s diagonal size. The recommended maximum viewing distance is 2.5 times the screen size. So for a 40 inch HDTV, sit about 5 feet to about 9 feet away. If you feel more comfortable at a greater distance by all means do what you think is best as these are just general guidelines.

EYE STRAIN

Both very dark and very bright rooms can cause eye strain over time. Also reflections off the screen caused by local lights, windows or other light sources can cause difficult viewing.

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