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We know that any 3D objects can be seen in 2D screen where z-coordinate is constant because projection plane is kept at z_vp (any constant z-coordinate) . But when we use z-buffer algorithm we use different z value in view plane.

My question is if I use different z-value of object in projection plane, it not should be look like 3D image? I mean how images are 2D after using different z-value?

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  • @Spektre we only see any image/video in 2D on computer screen. But when we use different z-value then then still we see 2D image on screen?
    – S. M.
    Nov 20, 2021 at 7:57
  • @Spektre could you insert your comments in answer I will accept it.
    – S. M.
    Nov 20, 2021 at 8:09

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if you ask how many possible z-values can be stored that depends on your depth buffer bit width for example 24bit has 2^24 possible depths. Usual bitwidths are 16/24/32 bit. However the depth value is not mapped linearly but logarithmicaly in order to have uniform visual detail on whole range of the viewed frustrum. However in some cases this brings up a lot of problems in which case linear depth buffers are used see:

The perception of depth on 2D screen is done with:

  1. lighting/shading

    so angle/distance between rendered faces and light source and camera matters too (affect color). The easiest lighting model is normal shading see:

    On top of this you can add more complex lighting supporting also Light Attenuation (light is dimmer with distance), fog , Scattering (SSS or atmospheric ), Spot lights,Environmental reflections etc...

  2. perspective

    the scale of objects depends on the distance to camera which allows our vision to estimate relative distance between known sized objects. If objects or camera is moving then this allows relative distance estimation also for unknown size objects.

  3. Hidden Surface Removal

    This hides objects that are behind other objects. This can be done by Depth sorting (Painter's algorithm) or depth buffering and in some cases just by Back-Face culling. Depth buffering is usually more suitable as its faster and also handles the intersection much better/easier (however some stuff still needs Depth sorting like for example arbitrary transparency).

    Depth buffering also allows to retrieve the 3D information latter which is often used for:

If you're interested in more depth explanations see:

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  • explain little "light source and camera matters too (affect color)"
    – S. M.
    Nov 20, 2021 at 8:34
  • @Sood added some links to QAs dealing with it...
    – Spektre
    Nov 20, 2021 at 8:50

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