I simply remember that for apertures, a small number = a big hole = small depth of field. So f2.8 means a stonking great hole to let the light in and a very shallow depth of field. Simples
I can just about make it to the co-op without the blindfold, the zebra crossing is lethal!
I know there is more to it than that but that's exactly what my starting point was, one step at a time on that tightrope
its not easy to put into words ...
I have to assume you don't understand the effect fully yourself, soz.
No prob, well its possibly badly formed but being as you've not given my words any credibility at all, cos your also right in my eyes,
That Wiki article explains it very badly I've always thought.
Let me reason with you if I can, why near parallel makes for good long DOF .. with a question.
You've just focused your light rays accurately on your focal plane, your using f16 on a landscape, you chose a tree not far away for foreground interest and thats your focal point. Your focus is bang on and back at the sensors surface the points of light / COC is spot on 'in focus'... the results are perfect, back home everythings in focus lovely, prints out massive no problem loads of DOF very sharp.
Considering you only focused on the tree why is the grass nearby and the mountain in the background also in pin sharp focus. Becasue the focused light that you made meet on the sensor by adjusting the lens was only from the tree?
. In fact the 2nd diagram is wrong.
No prob, well its possibly badly formed but being as you've not given my words any credibility at all, cos your also right in my eyes,
That Wiki article explains it very badly I've always thought.
Let me reason with you if I can, why near parallel makes for good long DOF .. with a question.
You've just focused your light rays accurately on your focal plane, your using f16 on a landscape, you chose a tree not far away for foreground interest and thats your focal point. Your focus is bang on and back at the sensors surface the points of light / COC is spot on 'in focus'... the results are perfect, back home everythings in focus lovely, prints out massive no problem loads of DOF very sharp.
Considering you only focused on the tree why is the grass nearby and the mountain in the background also in pin sharp focus. Becasue the focused light that you made meet on the sensor by adjusting the lens was only from the tree?
. In fact the 2nd diagram is wrong.
I agree about the Wiki article - the top RH diagram is OK, as for the rest
OK in answer to your question - The grass nearby and the background are not actually in pin sharp focus. The small circles (Circles of Confusion) that they are made up of are very, very, very small though and to your eye they appear to be pin sharp.
The size of these small circles are dependent on the aperture size as the closed down aperture blocks the light rays which would otherwise be coming from the edges of the lens and only :shake:..is this right...light comes from all places equally...lens wise otherwise it could be sad
Is that what you meant by parallel, that the light rays allowed through by the stopped down aperture will all be a similar angle to the centre axis of the lens?
I agree about the Wiki article - the top RH diagram is OK, as for the rest
OK in answer to your question - The grass nearby and the background are not actually in pin sharp focus. The small circles (Circles of Confusion) that they are made up of are very, very, very small though and to your eye they appear to be pin sharp.
The size of these small circles are dependent on the aperture size as the closed down aperture blocks the light rays which would otherwise be coming from the edges of the lens and only allows through the rays which are near the centre of the lens. is this really correct
Is that what you meant by parallel, that the light rays allowed through by the stopped down aperture will all be a similar angle to the centre axis of the lens?
I agree about the Wiki article - the top RH diagram is OK, as for the rest
OK in answer to your question - The grass nearby and the background are not actually in pin sharp focus. The small circles (Circles of Confusion) that they are made up of are very, very, very small though and to your eye they appear to be pin sharp.
The size of these small circles are dependent on the aperture size as the closed down aperture blocks the light rays which would otherwise be coming from the edges of the lens and only allows through the rays which are near the centre of the lens.
Is that what you meant by parallel, that the light rays allowed through by the stopped down aperture will all be a similar angle to the centre axis of the lens?
Yes that is was partially what meant in my first sentence, and the reason behind it . ta for getting back to that.
Not simply because there to the centre axis of the lens though, the aperture doesn't block any part of the scene, as you close down you get less of the wider reflected rays .... compensate exposure etc...leaving you with more of the nearer to parallel CoC in comparison, and so on as you stop down further.
..as you know.
edit soz, slow reply very poor browser here..
You say its 100% correct, except for the other considerations ...so its nearly correct then?
Hoppy your such a hair splitter.... :nono:
mrcrow
The size of these small circles are dependent on the aperture size as the closed down aperture blocks the light rays which would otherwise be coming from the edges of the lens and only allows through the rays which are near the centre of the lens. is this really correct
Yes it is right. The rays from a single point on the subject, say a pore on a face, spread out like a solid cone and hit every part of the front of the lens. The lens then bends the light by different amounts depending on where on the lens the light hits, all of the light then focuses at a single point. If the camera had been focused on the face then the sensor will be where all of the light is focused. As you close down the aperture then light rays from the edges of the lens will be blocked so not so much light from the pore reaches the sensor so it will be darker.
Any points that are nearer than the pore will be focused nearer than the sensor and the rays will continue and spread out and reach the sensor as a circle (Circle of Confusion).
Any points that are further than the pore will be focused further than the sensor and the rays will reach the sensor as a circle (Circle of Confusion).
That circle will be made smaller if the aperture is closed down as the aperture will not allow light from the edges of the sensor through.
I am not sure if my diagram helps or not - it is a bit crude. S is a point on the subject, the orange line is the aperture, you have to imagine where the sensor is.
If the sensor is where the focused rays meet then the point will be in focus and aperture will just block some rays and make the point darker.
If the sensor is behind where the focused rays meet then you can see that the rays have spread out again and the point will not be in focus - it will be a circle, if you now imagine some of the rays being stopped by the aperture the spread out circle will be smaller. The smaller the aperture the more rays that are blocked and the smaller the circle - the more the point will seem in focus to the eye.
A similar argument applies if the sensor is in front of where the focused rays meet.
I know that it is not the sensor that moves but too much detail on the diagram makes it even more confusing. Just imagine each case - in focus, nearer than the focus point and further than the focus point seperately.
