damn it where are the answers!!!!

Okay, but don't look until you've tried to answer the questions:
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1. b
2. b
3. a
4. c
5. b
6. a
7. d
8. b
9. c
10. a
11. c
12. d
13. a
14. d
15. c
16. a
17. b
18. c
19. d
20. a
21. c
22. a
23. d
24. a
25. c
26. d
27. b
28. b
29. c
30. b
31. c
32. a
33. b

Darryl, this was absolutely great... would you do another?


I really made me realize how much more i need to study

Darryl


You so rock:) Thanks for a great study guide. You actually stumped my doctor with some of the questions:hammer:


Christina

I'm glad you guys had fun with it.

Well, maybe down the road. As you can imagine, it takes a bit to put something like this together. ;) I actually developed most of this particular test over ten years ago for a Master Exam Review Course I gave. Maybe I'll add a few more questions to round it to an even 50 over the weekend.

The Master Exam has apparently been watered down a lot in terms of its technical content. So, if you can get through a test like this, you should be able to sail through the ophthalmic optics portion of the examination. Don't let this discourage you.

Personally, I had no idea what to expect when I took the Master Exam, and really prepared more than I needed. I went through all of the ABO's suggested reading materials thoroughly, which cost me a great deal of time and money. Several were even out-of-print. However, I now have a formidable optical library because of it:

Where Darryl's Early Paychecks Went

I got several of these signed by the authors, which I think is neat. In any event, I guess it's better to be too prepared than ill prepared. Frankly, Brooks & Borish's System for Ophthalmic Dispensing, 2nd Ed would have been the only book needed to answer the majority of the questions from the old Master Exam.

By the way, each question on this practice test is worth about 3 percentage points, so you would need to get at least 23 of the questions right to pass a 100-question exam at 70%.

Great work Darryl......nice to have some material to refresh ourselves. Many thanks!!

Isn't the answer (b) for question #27?


27. Given a distance correction of O.D. +2.00 DS and O.S. +4.00 DS, which eye/lens would have the reverse slab-off applied for a vertical imbalance correction?
a. Right (O.D.) eye/lens
b. Left (O.S.) eye/lens
c. Either lens could use it
d. Neither lens could use it

Oops, Yes, Sorry. Unfortunately, I prepared my answer key rather haphazardly on a separate sheet of paper. I'll go through and double-check the rest right now to ensure I haven't transposed any other answers.

Gees Darryl,

It certainly does look like the old exam we did. There were also several questions regarding one problem that required answering several questions and if you make an error on one you would miss several.

I wrote several items for the NAO Masters Review book too.This brought back some of those memories. One I can remember was converting radius to diopters. There was no use of preprogramed calculators either.

I still have many Optical Index magazines that asked questions like this and taught you how to solve problems. Nothing is like it out there today.

Bev

I double-checked all of the problems, and the answer key is correct. I fixed the answer key for 27, too; it turns out I had added "reverse" to the original question when posting it here, but forgot to change the original answer in my key.

In the US, anyway. The British opticianry exams make this stuff look like a warm-up exercise. (To give you an idea, I pulled Question 3 from a British test.) I'll add a few British questions over the weekend to challenge even current Master Opticians a little.

Perhaps you should post a few here...? Actually, e-mail them to me and I'll make a test form people can fill out to find out their answers instantly.

It's awesome to see this type of thread. Keep them coming!!!

I was scanning this practice test exam and one of the problems has me stumped. Question 3. The vertical and horizontal components are not given so you can't solve the problem simply using Pythagoras theorem. So how would you go about solving this problem?

When I was studying for the advanced test I went through Darryl practice questions as well and was stumped by that very question. It's a little easier than you may expect. Sad thing is I can't remember it right now!! My Nyquil induced drowsiness isn't helping me! But this is an important problem to understand, it came up countless times in my test! Darryl was kind enough to explain it and maybe Darryl, Harry or Lensgrinder can shed a little more light on this than I can at this time. Now my pillow is calling me!:D

You could do it graphically drawing vectors, or the more simple solution would be to use the resolving prism formula

Vertical Prism = Prism * Sin (a)
Horizontal Prism = Prism * Cos (a)

so for the the first prism:

H=2 BI

for the second prism:

V=1.5*sin(30)=0.75BU (for right lens 30 degrees is nasal and above datum)
H=1.5*cos(30)=1.30BI

For the third prism:

V=0.75*sin(60)=0.65BU (for right lens 60 degreesis nasal and above datum)
H=0.75*cos(60)=0.38BI

Now we add them all together

V=0.75+0.65=1.40BU
H=2.00+1.30+0.38=3.68BI

Now we an use pythagoron theorem:

P²=V²+H²
P²=1.96+13.54
P=3.94

tan(a)=V/H
tan(a)=1.4/3.68
tan(a)=0.38
a=tan^-1(0.38)
a=21

so 3.94@21 (so I rounded sue me):D Hey Donn lay off the nyquil cocktails.:p

Ahhh now I get it. Each prism is its own separate vector!! I was reading too much into the question and I confused myself. Once again, thanks Harry for helping me out with the question.