N.A. Re-visit

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linuxusr
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N.A. Re-visit

#1 Post by linuxusr » Fri Apr 30, 2021 11:26 pm

I'm probably not the first person who didn't find understanding N.A. a no-brainer. Let alone even understanding why it's printed on the objectives. For what purpose?

Until I found this nifty formula in my Zeiss manual:

Maximum useful magnification = N.A. (1000)

So, for me:

4x = 100
10x = 250
40x = 650
100x = 1250

But what does this mean? If I am looking at a diatom with my 10x, that means that it is 100 times larger than it would be if I looked at it with the naked eye. But according to the formula it is 250 larger. So I don't understand.

My only guess is that the above references maximum theoretical magnification (not "empty" magnification) and not actual magnification.

Can anyone explain what is going on?
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BramHuntingNematodes
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Re: N.A. Re-visit

#2 Post by BramHuntingNematodes » Fri Apr 30, 2021 11:54 pm

It would be 250x with a 25x eyepiece.
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dtsh
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Re: N.A. Re-visit

#3 Post by dtsh » Sat May 01, 2021 3:43 am

As I understand it, that's a general rule for what magnification you can expect before reaching empty magnification.
With the usual 10x eyepieces one is typically well within the useful range of the objective allowing you to swap in higher mag eyepieces to get more. For example, if you have 40x objective and no 60x, the 40x (0.65 NA or so) is good to 650x (0.65*1000), so a pair of 15 eyepieces would get you that 600x.

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linuxusr
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Re: N.A. Re-visit

#4 Post by linuxusr » Sat May 01, 2021 4:32 am

@Bram . . .

I already calculated the N.A. for my objectives (which I left out). It depends on one's specs.
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Re: N.A. Re-visit

#5 Post by linuxusr » Sat May 01, 2021 4:46 am

@dtsh

O.K. so the magnification I do achieve is a function of my ocular multiplier. So based on a given objectives's NA(1000), that gives me maximum possible magnification (and concomitant resolution). If I want to exceed my actual magnification, I can change the eyepiece, re-multiply, and if I don't exceed a given objective's NA(1000) I have useful magnification without loss of resolution.

If that's the case, is it common practice to have a range of oculars available?

@Bram . . .

I think you're right. I missed your point.
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Re: N.A. Re-visit

#6 Post by linuxusr » Sat May 01, 2021 4:59 am

This would explain why N.A. is printed on objectives. Two arithmetic calculations tells you if changing the eyepiece can give you magnification/resolution that is useful provided that you do not have the necessary objective. Changing the ocular multiplier is another parameter we have at our disposal but you need the N.A. for each objective.

first calculation: maximum useful magnification = NA (1000) on a given objective. Note that value.

second calculation: say, 15x eyepiece times objective. If the result does not exceed the above vallue, your magnification is useful.
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75RR
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Re: N.A. Re-visit

#7 Post by 75RR » Sat May 01, 2021 7:25 am

Useful magnification:

There is a formula (well a rule of thumb really) to calculate this: Range of Useful Magnification (500-1000 x NA of Objective)

In which the 500 x NA (Numerical Aperture) is the minimum necessary for the detail present in an image to be resolved,
and anything over 1000 x NA gives empty magnification.

as an example:
For a Plan 40/0,65NA Objective
the range would be between
500 x 0,65 = 325 and
1000 x 0,65 = 650 so
below 325x total magnification, detail will not be resolved
above 650x total magnification, no additional detail will be resolved

best Useful Magnification Range for this objective is between 325x and 650x

A quick test is to multiply the NA of an objective by 1000,
then multiply the magnification of the objective by the magnification of the eyepiece,
if the second figure is higher then using that objective with that eyepiece will result in empty magnification.

Another useful test is to divide the max magnification by the objective's magnification, this gives you the max eyepiece magnification for that objective.
In this case 650/40 = 16. Therefore a 16x eyepiece would be ok (just) but a 20x eyepiece would give empty (too much) magnification with this objective.
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Voyager-1
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Re: N.A. Re-visit

#8 Post by Voyager-1 » Sat May 01, 2021 8:24 am

75RR,

Thanks! You made something that was insurmountable very easy to understand!
What a revelation, thanks again 75RR!

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pippo1234
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Re: N.A. Re-visit

#9 Post by pippo1234 » Sun May 02, 2021 6:21 am

What does the lower bound in that formula imply for micrography? Let’s say 2.5x relay lens and full frame camera and plan 40x,0.65 objective: .65 x 500 = 325 >> 100 = 40 x 2.5.

Does it mean that some detail that could be resolved is not? But is it present and can it be resolved just by magnifying the photo?

TIA

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Re: N.A. Re-visit

#10 Post by Scarodactyl » Sun May 02, 2021 8:34 am

Putting aside the difference between the size and nature of the retina vs a camera sensor, your eye has a wide angle ~23mm lens in front of it which significantly reduces the final magnification of the image. So comparing the magnification there can be tricky.

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Re: N.A. Re-visit

#11 Post by linuxusr » Wed May 05, 2021 12:15 am

@75RR
@Voyager-1
@pippo1234
@Scarodactyl

Thanks to 75RR for your robust post! On further reflection, I don't see the need for the lower value of 500. According to my Zeiss manual, the formula is NA(1000) = maximum useful magnification.

So, to give an actual example, I wanted to purchase an eyepiece > 10x. The only eyepiece by Zeiss that fit my eyetube was a 16x. I decided to check my 40x objective. It's NA is 0.65, so moving the decimal three places to the right, I get 650 maximum useful magnification. Any value > will not permit that objective. Any value < will permit that objective. So 40(16), multiplying my ocular with the 40x I get 640, so, yes, I can use that objective. That was a mandatory calculation prior to purpose.
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linuxusr
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Re: N.A. Re-visit

#12 Post by linuxusr » Wed May 05, 2021 12:48 am

I left out part of the formula for NA.

It is:

N.A. = n(sin)(theta)

n = refraction rate between specimen and objective lens

n=1 for air
n=1.515 for oil
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