Graphics and video
For a list of games, see games with field of view (FOV) support.
An appropriate FOV is different depending on how far the player is away from a display.
However, many games released on the PC (such as console ports) do not have the correct FOV adjustment, usually because the FOV has been kept the same as it was on the console version of the game.
While the right FOV is usually a matter of taste, there is in fact an objective rule: The 3D graphics should look natural to the vision center in your brain and your eyes. If you had a 3D computer model of your current actual reality, you could look at this model on a screen, so that it is perfectly aligned with the actual reality that you can see around the screen. You would have to set a certain FOV for that. Now, if you move the screen closer to you, or if you'd swap the screen for a bigger one, you would have to increase the FOV. If you move it further away (or if it "shrinks"), the FOV needs to be decreased.
Geometry will appear distorted if there is a mismatch between actual screen FOV coverage and in-game FOV being rendered. This is true whether in-game FOV is lower or higher than actual [physical] screen FOV coverage.
In case where rFOV (rendered FOV) exceeds tFOV (true FOV) of the screen, users will notice objects away from the center of the screen being stretched. On the other hand, objects away from the screen will appear shrunk if cases where tFOV exceeds rFOV especially for the HUD elements (when a certain FOV code is hackable).
Great majority of popular PC games use rectilinear method of rendering virtual world onto the display surface. What this means is that game engine thinks of your display (or multi-monitor setup) as being perfectly straight surface. If user sets in-game horizontal FOV to value of 90°, game engine renders geometry according to the assumption that the user if facing left/right edges of the screen at a 45° angle (90° / 2 = 45°).
As written before, the cause of visible distortions is a mismatch between engine assumption of the user's position [relative to the display] and user's actual position relative to the display.
One difference that often causes confusion is the measurement of FOV - most titles will expose the number horizontally, some games however, measure FOV in the vertical.
An intrinsic value of vertical FOV is that it does not need to change to compensate for a wider view, only the aspect ratio does. An example of this is on a 16:9 display, a vertical FOV of 70 will produce 102 horizontal whereas a 16:10 display would yield 96 horizontal. This can lead to some confusion because seeing such a low value can initially appear jarring when it is actually closely in line with other titles.
To further complicate matters, some games expose the horizontal number but internally compensate for the aspect ratio. Team Fortress 2 is also an example of this -- depending on the aspect ratio, 90 FOV is likely not "really" 90. On the other hand, a game that does NOT compensate for aspect ratio is Quake. These behaviors are more commonly recognized as 'Hor+' and 'Vert-' respectively.
When faced with a game using vertical FoV, you can use this calculator to convert from the standard horizontal FOV, into a vertical FOV.
A few examples for common monitor resolutions:
This is the largest community online dedicated to fixing FOV and aspect-ratio issues, as well as the configuation of PC games with multi-monitor set ups. Their extremely active community shares videos, information, settings and profiles for fixing FOV issues.
Widescreen Fixer is a very well-supported FOV utility. It uses rendering call overrides to widen the projection matrix at the API level and, as such, widens the field of view, but can distort the image incorrectly from game to game. It supports several games and is not detectable by multiplayer anti-hack systems. This tool works best for multiple-monitor desktops.
Alternatively, if you need to know the optimal FoV for your particular monitor and distance, this tool will calculate your FoV from center horizontally. This means if you double the result, you will have your optimal horizontal FoV.
This calculator will convert horizontal FoV to vertical.