Telescopes Nd Telemicroscopes

Question 1

What is the height of a 20/20 letter when using 20 foot test distance?

Answer 1

20 feet (6096mm) Tan (5/60)=x/6096mm 0.001454442069=x/6096mm 8.87mm=x 5=5m of arc for 20/20 letter

Question 2

These priced distance magnification

Answer 2

Telescope

Question 3

What do telescopes consist of

Answer 3

2 lenses, an objective (closest to object) and an ocular (also known as eyepiece)

Question 4

In low vision telescopes, the ____ is always a plus lense

Answer 4

Objective

Question 5

Galilean telescope

Answer 5

-aka terrestrial telescope -Minus ocular, plus objective

Question 6

Keplarian telescope

Answer 6

-AKA astronomical telescope -plus ocular, plus objective

Question 7

Lens separation (d) in a Galilean telescope

Answer 7

(d)=1/F1+1/F2 Then the lenses are separated such that the secondary focal point of the objective coincides with the primary focal point of the ocular, they relate an afocal system (has not dioptric power)

Question 8

Afocal telescopes

Answer 8

Lenses are separated such that the seoncday focal point of the objective coincides with the primary focal point of the ocular They are vergence amplifiers

Question 9

What is the separation between the lenses in a keplarian telescope that has a +5D objective and a +20D ocular?

Answer 9

D=1/F1+1/F2 F1=+5D F2=+20D 1/5+1/20 D=0.25m=25cm

Question 10

What is the separation between the lenses in this Galilean telescope? (F1=+5D; F2=-20D)

Answer 10

1/5+(-1/20) D=0.15m=15cm

Question 11

Angular magnification

Answer 11

M=(-F[ocular])/F[objective])

Question 12

What is the angular magnification of a galialean telescope that has a +5 objective and -20D ocualr?

Answer 12

M=-(-20)/5=4x

Question 13

What is the magnification of a keplarian telescope that has a +5 objective and a +20 ocular

Answer 13

M=-20/5=-4X (image is inverted)

Question 14

Uncorrected refractive error and Galilean focusable telescopes: -5D myope, -20D ocular, +5D objective

Answer 14

-5D of ocular power needed to correct refractive error D=1/5 + 1/-15=0.133 M=-(-15)/5=3x

Question 15

Uncorrected refractive error and Galilean focusable telescopes. +5D hyperope, -20D ocular, +5D objective

Answer 15

I uncorrected hyperopia adds 5D of power to ocular D=1/5 + (1/-25)=0.16 M=-(-25)/5=5X

Question 16

Viewing near objects through fixed focus telescopes

Answer 16

-telescopes are vergence amplifiers -much more acommodation is needed to view near objects with a telescope compared to without Approximate formula: L’=M^2L

Question 17

An object viewed from 50cm away through a 5x telescope

Answer 17

L=1/.5=2 L’=(5^2)2=50D

Question 18

Exit pupil

Answer 18

-image of the objective as formed by the ocular -the closer the exit pupils is to the entrance pupil of the eye, the larger the field of view

Question 19

Exit pupil in Galilean

Answer 19

Inside scope

Question 20

Exit pupil in keplarian

Answer 20

Located outside scope

Question 21

Length of Galilean

Answer 21

Shorter

Question 22

Length of keplarian

Answer 22

Longer

Question 23

FOV in Galilean

Answer 23

Smaller

Question 24

FOV in keplarian

Answer 24

Larger

Question 25

Weight of Galilean

Answer 25

Lighter

Question 26

Weight of keplarian

Answer 26

Heavier

Question 27

Cost of Galilean

Answer 27

Less

Question 28

Cost of keplarian

Answer 28

More

Question 29

What is the power of an afocal telescope with an objective of +10D and an ocular of +30D? What kind of telescope is this

Answer 29

M=(-F2)/F1 M=(-30)/10 M=-3X Keplarian

Question 30

Determining the telescope power

Answer 30

Divide the diameter of the entrance pupil by the diameter of the exit pupil The diameter of the entrance pupil is found by measuring the diameter of the visible opening at the objective lens. The diameter of the exit pupil is found by measureing the small circle of light seen from the ocular side when holding the telescope away from the eye

Question 31

Diagnosis test sequence for Rxing telescopes

Answer 31

-determine best distance correction -measure BCVA -determine goal acuity -calculate magnification needed -demonstrate appropriate telescope magnification -explain available options

Question 32

RXing telescopes

Answer 32

-use your equation for determining needed magnification -mag=reference size/goal size -what you’ve got over what you need

Question 33

If the patients BCVA is 20/100 and they want to see 20/20, what telescope do they need

Answer 33

M=100/20 M=5X

Question 34

If the patients BCVA is 20/100 and their goal is 20/50, what telescope do they need?

Answer 34

M=100/50 =2X

Question 35

When Rxing telescopes for pateitns and they dont have a specific goal, what do we choose for a goal size?

Answer 35

20/40

Question 36

Your patient read 10/60 on the Feinbloom chart. They want to see the board from their seat (20 feet from the board) at school. Assuming 20/40 acuity would be adequate to do so, what is the min mag you would predict to meet their needs?

Answer 36

60/40=1.5X

Question 37

Things to consider when decision telescope format

Answer 37

How important is -FOV -cost -cosmesis -weight Do they need hands free -spec mounted? -monocular or binocular?

Question 38

Practical limits of telescopes

Answer 38

2x to 8x -telescopes beyond this range have an extremely limited field of view and it is difficult to maintain a steady image -Rx the lowest power that will be adequate

Question 39

Demonstrations of telescopes to patients

Answer 39

-pre-focus the telescope to be sure lenses are clean and scratch free -begin with a Galilean scope to see how well they understand using a telescope, typically 2.5x -if they struggle with a Galilean, they will need training before proceeding. Using a pair of binoculars, using an empty paper towel roll -if successful, show low power keplarian scope before moving to predicted telescope

Question 40

Hand held telescopes considerations

Answer 40

-power -Galilean vs keplarian -optical quality Conversion to clip on (allows same telescope to be used as hand held and spectacle mounted device)

Question 41

Using a telescope

Answer 41

-dousing typically requires 2 hands -hand holding telescope can serve as an occluder

Question 42

Hand held telescopes

Answer 42

-useful for spot checking -portable, inexpensive -can be worn around neck for convenience

Question 43

Numbers on the telescope 4 x 12

Answer 43

4x mag 12=objective diameter

Question 44

Telescope focusing at near

Answer 44

Some will focus at near

Question 45

Eschenback max TV; what type of telescope is it

Answer 45

Galilean

Question 46

Implantable miniature telescope centraSight

Answer 46

-implanted at the time of cataract surgery -only approved for endstage AMD -at least 65 years old -2.2 or 2.7x -lose peripheral vision in implanted eye -must be evaluated with an external telescope first

Question 47

Telemicroscopes

Answer 47

-combines features of telescope and microscope telescopes that is focuses at near -by adding a plus lens in front of the objective so that parallel light rays enter the telescope -by changing the tube length

Question 48

How do telescopes amplify vergence

Answer 48

Question 49

Magnification by a telemicroscope

Answer 49

Product of the magnification of the cap and that of the telescope -M(TMS)=M(cap)xM(TM) -M(TMS)=rF(cap)xM(TS) M(cap)=rF(cap)

Question 50

What letter size should a patient be abl to read if her near acuity with a +2.00D add over best correction is 0.5M/4M and she uses a 2x telescope wit ha 5D cap?

Answer 50

??

Question 51

What type of telescope is this

Question 52

What type of telescope is this

Answer 52

Galilean