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Is there a safe way to get the actually correct screen physical dimensions in Chrome, on Android? If necessary, old versions of Chrome and Android can be left out of scope.

Prior research

There are numerous dead-end questions on stackoverflow about getting the actual physical screen dimensions of a device from within javascript (or css). It seems there is no convergence between html api standardization and actual browser implementations in that, not to mention the browser implementation relies on OS api's which in turn rely on hardware providing the right information.

Some prior answers by the way are arcane (year 2011 and the like) in assuming a certain pixel density that prevailed at that time, and therefore useless. Others relate to webkit but Chrome is using blink for a while already, so those are not very relevant too.

I would like to explore the existence of a simple solution by constraining things to only Chrome on Android.


This is all about a javascript (or css) solution inside the browser, not a solution for a native app.


Well, I bumped into the following new property pair: screenPixelToMillimeterX, screenPixelToMillimeterY, which spit out some numbers in latest version Chrome, and is documented for IE and Firefox (e.g. https://developer.mozilla.org/en/docs/Web/API/SVGSVGElement). Not sure if it's useful, it can't know anything unless the OS can tell.

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Why do you want it? Physical Screen size means nothing on the web, all we care about is CSS Pixel sizes. –  Kinlan Feb 10 at 15:54
That's simply wrong. My user interface wants to know things like how large should a button be as the user sees it. you may possibly be thinking too much as a code developer in that ;) –  matt Feb 10 at 17:35
While @Kinlan didn't mention it, his point encompasses the fact that percentage-based or viewport based CSS values will accomplish 99% of what you're trying to do. i.e. You can size anything proportional to the viewport and create a highly use-able experience while still "caring about your physical user's eyes". –  BradGreens Feb 12 at 23:06
The size of a button, for example, shouldn't be a percentage of the viewport - but rather large enough to touch. I am not sure how that makes sense for high quality design. –  matt Feb 13 at 12:55
@matt is absolutely correct. One of the most important aspects of Web UX/UI, especially in a fat-finger world, is making sure the buttons are both appropriate for the pointer--in this case, a finger--as well as appropriately sized for the viewing distance from screen to eye. This new realm of mobile devices have complicated the matter, so physical screen size detection is even more paramount. –  Jason T Featheringham May 7 at 8:56

7 Answers 7

You can't really get the real physical dimensions or the actual DPI and even if you could, you can't do anything with them.

This is a pretty long and complex story, so forgive me.

The web and all browsers define 1px as a unit called a CSS pixel. A CSS pixel is not a real pixel, rather a unit that is deemed to be 1/96th of an inch based on the viewing angle of the device. This is specified as a reference pixel.

The reference pixel is the visual angle of one pixel on a device with a pixel density of 96dpi and a distance from the reader of an arm's length. For a nominal arm's length of 28 inches, the visual angle is therefore about 0.0213 degrees. For reading at arm's length, 1px thus corresponds to about 0.26 mm (1/96 inch).

In 0.26mm of space we might have very many real device pixels.

The browser does this mainly for legacy reasons - most monitors were 96dpi when the web was born - but also for consistency, in the "old days" a 22px button on a 15 inch screen at 800x600 would be twice the size of a 22px button on a 15 inch monitor at 1600x1200. In this case the DPI of the screen is actually 2x (twice the resolution horizontally but in the same physical space). This is a bad situation for the web and apps, so most operating systems devised many ways to abstract pixel values in to device independent units (DIPS on Android, PT on iOS and the CSS Pixel on the web).

The iPhone Safari browser was the first (to my knowledge) to introduce the concept of a viewport. This was created to enable full desktop style applications to render on a small screen. The viewport was defined to be 960px wide. This essentially zoomed the page out 3x (iphone was originally 320px) so 1 CSS pixel is 1/3rd of a physical pixel. When you defined a viewport though you could get this device to match 1 CSS pixel = 1 real pixel at 163dpi.

By using a viewport where the width is "device-width" frees you up from having to set the width of the viewport on a per device basis to the optimal CSS pixel size, the browser just does it for you.

With the introduction of double DPI devices, mobile phone manufacturers didn't want mobile pages to appear 50% smaller so they introduced a concept called devicePixelRatio (first on mobile webkit I believe), this lets them keep 1 CSS pixel to be roughly 1/96th of an inch but let you understand that your assets such as images might need to be twice the size. If you look at the iPhone series all of their devices say the width of the screen in CSS pixels is 320px even though we know this is not true.

Therefore if you made a button to be 22px in CSS space, the representation on the physical screen is 22 * device pixel ratio. Actually I say this, it is not exactly this because the device pixel ratio is never exact either, phone manufacturers set it to a nice number like 2.0, 3.0 rather than 2.1329857289918....

In summary, CSS pixels are device independent and let us not have to worry about physical sizes of the screens and the display densities etc.

The moral of the story is: Don't worry about understanding the physical pixel size of the screen. You don't need it. 50px should look roughly the same across all mobile devices it might vary a little, but the CSS Pixel is our device independent way to build consistent documents and UI's


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I really appreciate the holistic reply and the key hyperlinks! Just one thing about the bottom line you suggest at the bottom... how would 50px (or any other size) physically size roughly the same on all mobile devices? even if putting "phone sized" devices aside, tablets vary by 30% in physical screen size. Would you care to comment or did you imply that if devicePixelRatio or a combination of CSS properties are used by pages, then that statement applies. Thanks! –  matt Feb 14 at 10:12
@matt it will be the same on tablets. Like it is with retina mac books. The goal is that the "CSS Pixel" is relatively uniform across all platforms especially if you set the viewport width=device-width. –  Kinlan Feb 14 at 11:25
@kinland Very good explanation. I wanted to also point out that though devices "should" and in general do make 50px look roughly the same size, there are some that don't. I'm working on a project who's users often will view the site with a Lenovo Helix. This device makes everything very physically small, cramming a full HD sized viewport into a small space. This makes everything physically smaller compared to most other devices/monitors. And unfortunately there's no way (from what I can tell) to make things bigger for the poor users that have to interact with the UI, other than a browser zoom. –  Ben Jun 18 at 15:56
@Ben There is a way if your UI is responsive, and the device is a tablet and/or a metro/touch/modern view. If you are able to detect the device, you can technically resize the viewport to smaller than the default device-with, making UI elements larger with a slightly smaller UI width. –  hexalys Jun 25 at 4:30
@Kinlan Re: "device pixel ratio is never exact either, manufacturers set it to a nice number like 2.0, 3.0 rather than 2.1329857289918." Say what? Do you have an example of that? AFAICT mobile devices give accurate physical-pixel-width / device-width ratio... –  hexalys Jun 25 at 4:38

I tackled this problem with one of my web projects http://www.vinodiscover.com The answer is that you can't know for certain what the physical size is, but you can get an approximation. Using JS and / or CSS, you can find the width and height of the viewport / screen, and the pixel density using media queries. For example: iPhone 5 (326 ppi) = 320px by 568px and a 2.0 pixel density, while a Samsung Galaxy S4 (441ppi) = 360px x 640px and a 3.0 pixel density. Effectively a 1.0 pixel density is around 150 ppi.

Given this, I set my CSS to show 1 column when the width is less than 284px, regardless of pixel density; then two columns between 284px and 568px; then 3 columns above 852px. It's much more simple then it seems, since the browsers now do the pixel density calculations automatically.


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In native development you can get the exact value. +1 for native, -1 for web. –  trusktr Jul 20 at 20:55
Can you get the exact physical size in Android? –  Apollo Clark Jul 21 at 0:47

I bumped into the following property pair: screenPixelToMillimeterX, screenPixelToMillimeterY, which surprisingly spit out some numbers in latest version Chrome. https://developer.mozilla.org/en/docs/Web/API/SVGSVGElement. Not sure if it's useful, it can't know anything unless the OS can tell it. Maybe this provides accurate results reasonably across OS's and hardware.

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Does the screenPixelToMillimeterX times the number of horizontal pixels of your screen equal to the width of your screen in millimeters? If so, then this property is the answer. –  trusktr Jul 22 at 16:17
I some test on this. See my answer. Basically, it didn't work. –  trusktr Jul 31 at 21:09

Based on Matt's answer, I made a test:

// on Macbook Pro Retina (2880x1800, 15.4"), is the calculated diagonal size
// approximately 15.4? Let's see...

var svgEl = document.createElementNS("http://www.w3.org/2000/svg", "svg");
var screenWidthMillimeters = svgEl.screenPixelToMillimeterX * 2880;
var screenHeightMillimeters = svgEl.screenPixelToMillimeterY * 1800;
var screenDiagonalMillimeters = Math.sqrt(Math.pow(screenWidthMillimeters, 2) + Math.pow(screenHeightMillimeters, 2)); // pythagorean theorem
var screenDiagonalInches = (screenDiagonalMillimeters / 10 / 2.54); // (mm / 10mm/cm) / 2.54cm/in = in

console.log("The calculated diagonal of the screen is "+screenDiagonalInches+" inches. \nIs that close to the actual 15.4\"?");

This is the output:

The calculated diagonal of the screen is 35.37742738560738 inches. 
Is that close to the actual value of 15.4?


So there seems to be no way to get real physical values in a web browser yet.

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tl;dr You can get that info with WURFL:

Device display properties

The attributes are called:



Long version:

The best and most reliant strategy to achieve this is to send the user agent string from the browser to a DB like WURFL (or another) up to date DB that can provide the needed information.

User Agent string

This is a piece of information that all modern browsers can provide; it exposes information about the device and it's OS. It is just not meaningful enough to your application without the help of a dictionary like WURFL.


This is a database commonly used to detect device properties.

With it, you may be able to accurately support most of the popular devices on the market. I would post a code demo but one is available with the download on the WURFL site. You can find such a demo on the examples/demo folder that is downloaded with the library.

Download WURFL

Here is more information and explanation about checking the physical size and resolution: http://www.scientiamobile.com/forum/viewtopic.php?f=16&t=286

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JqueryMobile width of element

$(window).width();   // returns width of browser viewport
$(document).width(); // returns width of HTML document

JqueryMobile Height of element

$(window).height();   // returns height of browser viewport
$(document).height(); // returns height of HTML document

Good Luck Danny117

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Those are virtual dimensions, which are not always physical real-world dimensions. –  trusktr Jul 20 at 20:56
Thanks I did not know that –  danny117 Aug 1 at 17:20

Using the getPPI() function (Mobile web: how to get physical pixel size?), to obtain a one inch id use this formula:

var ppi = getPPI();
var x   = ppi * devicePixelRatio * screen.pixelDepth / 24;
$('#Cubo').width (x);

<div id="Cubo" style="background-color:red;"></div>
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