The document discusses the optical properties of the human eye. It describes the main refractive components of the eye - the cornea and lens, their refractive indices and radii of curvature. It explains how light is refracted as it passes through these surfaces to form an image on the retina. The document also discusses the schematic eye model and how it is used to analyze the optical performance of the eye and understand aberrations like spherical aberration. Accommodation is mentioned as the process by which the lens changes shape to focus on near objects.
Presentation containing information about all types of absorptive lenses its manufacturing, uses, advantages and disadvantages and some information about lens coatings.
Detailed instumentaion and use of manual Lensometer and just a outline of automated lensometer.
I have used the picture of manual lensometer with out the parts describtion because i have explained orally by showing the picture..
Hope u all like it and may help you in learning better. :)
magnification, It's definition, types, clinical uses, Uses in Optical instruments like microscopes, telescopes, Uses in Optical instruments like direct Ophthalmoscopes, indirect ophthalmoscopes and slit lamps, In low vision
Presentation containing information about all types of absorptive lenses its manufacturing, uses, advantages and disadvantages and some information about lens coatings.
Detailed instumentaion and use of manual Lensometer and just a outline of automated lensometer.
I have used the picture of manual lensometer with out the parts describtion because i have explained orally by showing the picture..
Hope u all like it and may help you in learning better. :)
magnification, It's definition, types, clinical uses, Uses in Optical instruments like microscopes, telescopes, Uses in Optical instruments like direct Ophthalmoscopes, indirect ophthalmoscopes and slit lamps, In low vision
Describes human eye optics.
Please send comments and suggestions for improvements to solo.hermelin@gmail.com.
For more presentations on different subjects please visit my website at http://www.solohermelin.com.
Think Mobile First: JCC Mobile Marketing StrategiesJCC Association
Benchmarking shows more than two-thirds of JCC members have smartphones. Learn how your JCC can put these devices at the core of your JCC’s marketing strategy.
In the case of a camera as well as the human eye, it is possible to control the amount of incoming light with the help of a diaphragm and an aperture. Both use a convex lens for focusing. The photographic film in a camera is coated with a photosensitive material. The retina in the eye consists of a large number of light sensitive cells.
When light travelling in one medium falls on the surface of second medium the following three effect may occur.
1:- A part of incident light is reflected back into the same medium. This is called Reflection of light.
2:- A part of light is passes through the medium.This Is known as Refraction of light.
3:- And remaining part of the light is absorbed by the surface on which the light fall. This is known as Absorption of light.
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
Laboratory session in Physics II subject for September 2016-January 2017 semester in Yachay Tech University (Ecuador). Topic covered: optics, lenses, convergence, divergence, eye, abnormality
Based on Bruna Regalado's work
Acetabularia Information For Class 9 .docxvaibhavrinwa19
Acetabularia acetabulum is a single-celled green alga that in its vegetative state is morphologically differentiated into a basal rhizoid and an axially elongated stalk, which bears whorls of branching hairs. The single diploid nucleus resides in the rhizoid.
How to Make a Field invisible in Odoo 17Celine George
It is possible to hide or invisible some fields in odoo. Commonly using “invisible” attribute in the field definition to invisible the fields. This slide will show how to make a field invisible in odoo 17.
Introduction to AI for Nonprofits with Tapp NetworkTechSoup
Dive into the world of AI! Experts Jon Hill and Tareq Monaur will guide you through AI's role in enhancing nonprofit websites and basic marketing strategies, making it easy to understand and apply.
Welcome to TechSoup New Member Orientation and Q&A (May 2024).pdfTechSoup
In this webinar you will learn how your organization can access TechSoup's wide variety of product discount and donation programs. From hardware to software, we'll give you a tour of the tools available to help your nonprofit with productivity, collaboration, financial management, donor tracking, security, and more.
Synthetic Fiber Construction in lab .pptxPavel ( NSTU)
Synthetic fiber production is a fascinating and complex field that blends chemistry, engineering, and environmental science. By understanding these aspects, students can gain a comprehensive view of synthetic fiber production, its impact on society and the environment, and the potential for future innovations. Synthetic fibers play a crucial role in modern society, impacting various aspects of daily life, industry, and the environment. ynthetic fibers are integral to modern life, offering a range of benefits from cost-effectiveness and versatility to innovative applications and performance characteristics. While they pose environmental challenges, ongoing research and development aim to create more sustainable and eco-friendly alternatives. Understanding the importance of synthetic fibers helps in appreciating their role in the economy, industry, and daily life, while also emphasizing the need for sustainable practices and innovation.
Macroeconomics- Movie Location
This will be used as part of your Personal Professional Portfolio once graded.
Objective:
Prepare a presentation or a paper using research, basic comparative analysis, data organization and application of economic information. You will make an informed assessment of an economic climate outside of the United States to accomplish an entertainment industry objective.
2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
Honest Reviews of Tim Han LMA Course Program.pptxtimhan337
Personal development courses are widely available today, with each one promising life-changing outcomes. Tim Han’s Life Mastery Achievers (LMA) Course has drawn a lot of interest. In addition to offering my frank assessment of Success Insider’s LMA Course, this piece examines the course’s effects via a variety of Tim Han LMA course reviews and Success Insider comments.
2. a, anterior surface of cornea
b, posterior surface of cornea
c, anterior cortex
d, anterior core
e, posterior cortex
f, posterior core
V, anterior pole of the eye
g, posterior poles of the eye
line jh, visual axis
3. Perfectly aligned optical system
Paraxial rays
◦ Rays close to axis
◦ Small angle of incidence
No spherical aberration
◦ Pupil size 2mm
4.
5.
6.
7. cornea + tear layer - separates air from aqueous
humor
Lens - separates aqueous from vitreous humor
Rays refracted first (most) at the first surface of
the cornea - large difference in index of
refraction at the air-to-cornea interface
Second surface of the cornea has negative power
Cornea - over 70% of 64 diopters (D) of refractive
power of the unaccommodated eye
lens supplies the remaining refractive power
Accommodation - additional power is supplied
by the lens, which assumes a rounder form
8. Europe until the Renaissance
psychic spirit
moved through a hollow optic nerve to the
retina and crystalline lens into the anterior
chamber
projected out of the eyes as an emanation of
rays that made objects in space visible
lens was the main receptor that created the
visual sensation that traveled back as a visual
spirit through the optic nerve to the brain
9. Alhazen (965–1039) – book of optics
light emanated from luminous sources such
as the sun and was reflected from the object
to the eye
an image was formed in the eye
unsure of its precise nature because of
inadequate appreciation for the refractive
properties of the ocular media
11. Kepler (1571-1630) - role of the crystalline
lens in the image-forming process
Points in space were imaged on the retina to
form an inverted, real image caused by
refraction by the cornea and lens
Proof by Scheiner (1573-1650) - removed
part of the sclera and choroid from
enucleated sheep eyes to reveal the back of
the retina
Pointing the eye toward a bright object, he
observed a small inverted image on the retina
12. Scheiner - cornea of the eye is convex mirror whose
reflex image could provide a measure of the
curvature of the cornea
a series of small glass marbles of various sizes from
about 10 to 20 millimeters in diameter
Patient was seated opposite a bright window where
the image of the crossbars could be observed
one marble and then another was inserted in the
corner of the eye until at length one was found which
gave a reflex image as nearly the same size as
possible as that seen in the cornea
Inferred that the radius of curvature of the anterior
surface of the cornea was at least nearly the same as
that of the marble
13. Invented ophthalmoscope
refined ophthalmometer
No accurate data on the crystalline lens
Ophthalmophacometer by Tscherning -
separate Purkinje images of all refracting
surfaces could be formed
depth of the anterior chamber and the
curvatures of the anterior and posterior
crystalline lens surfaces and the lens
thickness calculated trigonometrically
14. refined the Helmholtz schematic eye
invented the photokeratoscope to
photograph the corneally reflected image of a
target consisting of concentric circles
Measurements of the spacing of circles in the
image reveal whether the cornea is spherical,
aspheric, or astigmatic
If the images are elliptic, the cornea is
astigmatic, that is, toroidal
peripheral portions of the cornea could be
investigated and its entire contour mapped
15. six spherical refracting surfaces, two for the
cornea and four for the crystalline lens
lens is seen as a central double convex core
surrounded by a cortex that has a lower
index of refraction
16. a, anterior surface of cornea
b, posterior surface of cornea
c, anterior cortex
d, anterior core
e, posterior cortex
f, posterior core
V, anterior pole of the eye
g, posterior poles of the eye
line jh, visual axis
17. Light is assumed to travel from left to right
Positive distances are measured from left to
right
negative distances are measured from right
to left
Object distances are measured from the
optical element to the object point
Image distances are measured from the
optical element to the image point
18. the object distance from the lens to the
object point is negative, that is, it is
measured from right to left, and the image
distance is positive.
19. Light diverging from the
object point - negative
vergence
spherical wavefronts grow
larger as their radial
distances from the source
increase
curvature is the reciprocal
of the radius of curvature
farther the wavefront is
from the object, the
smaller its curvature will be
Wavefront vergence in
diopters equals the
reciprocal of the radial
distance in meters
20. Vergence = 1/Distance in meters
Light that is converging toward an image has
positive vergence
Wavefronts become increasingly curved as
they approach the image point, and the
vergence increases correspondingly
At distance of 4 meters, the vergence is
¼ = + 0.25 D
2 meters, the vergence is
½ = + 0.5 D
21. paraxial characteristics of a complex optical
system can be determined readily by reducing
the system to six cardinal points
◦ 2 focal points
◦ 2 principal points
◦ 2 nodal points
22. When light from an infinitely distant source
found to the left of an optical element strikes
the element, the collimated paraxial rays will
be converged to F‘
◦ real image point for positive elements
◦ virtual image point for negative elements
Light originating from the first focal point F
will be collimated by the optical element,
forming an image at infinity
23. Positions of the first and second focal points
formed by a positive thin lens in air and
positive single refracting surface.
24. Positions of the first
and second focal
points formed by a
negative thin lens in
air and a negative
single refracting
surface.
25. plane defining the position of a thin lens that
theoretically could replace the lens system
26. pair of axial points
in calculating image sizes
An incident ray directed toward the first nodal
point will appear to emerge from the second
nodal point with unchanged direction
points of unit angular magnification
slope of the ray directed toward the first
nodal point is the same as the slope of the
ray that appears to emerge from the second
nodal point
27. principal and nodal points all coincide at the
vertex of the lens
28. first and second nodal points coincide with
the first and second principal points
29.
30. complex series of refracting surfaces that
forms an image in vitreous of an object in air
All six cardinal points
Schematic eye
31.
32.
33. P = equivalent refracting power
P1= refracting power of the first element
P2= refracting power of the second element
D= reduced distance
77. Theoretical optical specification of an idealized
eye, retaining average dimensions, omitting
complications
Assumption - Refracting surfaces co-axial
Real – lens is decentered and tilted
P = +58.64D
F1 = -17. 05 mm
f2 = +22.78 mm
H = +1.35 mm
H’ = +1.60 mm
N = +7.08 mm
N’ = +7.46 mm
79. Object – pupil
Image formed by cornea
Centre E
80. Object – Pupil
Image formed by lens
Centre – E’
81. An incident pencil of rays directed towards and
filling the entrance pupil would pass through the
entire area of the real pupil, after refraction by
the cornea, and on finally emerging into the
vitreous body, limited by the exit pupil
82. A ray directed towards E passes through E’
after refraction
E and E’ are conjugate
If a ray directed towards E makes an angle u
with the optic axis, the conjugate refracted
ray will make an angle u’ where u’/u=0.82
83. Entrance pupil
◦ 3 mm behind ant surface of cornea
◦ 13% larger than real pupil
Exit pupil
◦ Close behind real pupil
◦ 4% larger
84. The differences between the prediction of the
paraxial ray method and the actual image are
called aberrations.
◦ Spherical aberration
◦ Coma
◦ Astigmatism
◦ Chromatic aberration
85. optically homogeneous lens with spherical
refracting surfaces would produce spherical
aberration
Marginal rays have different focus
86. Positive spherical aberration - rays near the
edge of the lens have an effective focal point
that is closer to the lens than rays that strike
the lens near the axis
Negative spherical aberration - rays near the
edge of the lens have an effective focal point
that is at a greater distance from the lens
than rays that strike the lens near the axis
87. increases with the diameter of the lens
minimized by limiting the opening of the lens
88. cornea is not spherical – steep at center, flat
at periphery
◦ Reduce spherical aberration
Lower index in the outer zones of the lens
◦ Marginal rays refracted less
Constriction of the pupil
◦ Reduce spherical aberration
89. During accommodation
◦ curvatures of the lens become steeper
◦ axial thickness increases
◦ pupil constricts
Enable the eye to focus sharply near objects
on the retina
Allows front surface of the lens to bulge in
the center while keeping the periphery less
curved
Control spherical aberration
90. The differences between the prediction of the
paraxial ray method and the actual image are
called aberrations.
◦ Spherical aberration
◦ Coma
◦ Astigmatism
◦ Chromatic aberration
91. This aberration affects rays that come from
an object that is not at the center of the lens.
magnification of a lens is different for
marginal and paraxial rays
coma positive - the image of an object
produced by off-axis rays is slightly larger
than the image produced by paraxial rays
coma negative - the image produced by the
off-axis rays is slightly smaller
92. several different images of different sizes all
of which are in focus on the same screen
bright image formed by the paraxial rays and
a series of smaller (or larger) images formed
by the rays that hit the lens far away from the
axis
like a comet – a clear image with a fuzzy tail
oriented along the screen and composed of
weaker images formed by the off-axis rays
93.
94.
95. The differences between the prediction of the
paraxial ray method and the actual image are
called aberrations.
◦ Spherical aberration
◦ Coma
◦ Astigmatism
◦ Chromatic aberration
96. off-axis effect
When an object point is quite far off of the
central axis of the lens, the effective radius of
curvature (and hence the effective focal
length of the lens) in one direction is not the
same as in a perpendicular direction.
produce a slight difference in the focal length
for rays that are in the longitudinal plane of
the lens and for rays that leave this plane
97. A point on an off-axis object has two image
points – one for the rays that strike the lens in
the plane of the object and the central axis of the
lens and another for rays that strike the lens
perpendicular to this plane
At either of these two image points, the rays
forming the other image are somewhat out of
focus, and often form a small line segment
At intermediate points between the two image
points the rays combine to form an image that
sometimes looks like a small + sign.
98.
99.
100. The differences between the prediction of the
paraxial ray method and the actual image are
called aberrations.
◦ Spherical aberration
◦ Coma
◦ Astigmatism
◦ Chromatic aberration
101. Combination of positive and negative lenses
will have a net refractive power but their
opposing dispersions will cancel
short wavelength light is refracted more
strongly than long wavelength light
Resulting in chromatic aberration
102. Eg:
If light of wavelength 550 nm is in focus on
the retina, the image in ultraviolet light of
wavelength 350 nm will be out of focus
103. lens acts as a filter transmit the visible spectrum
but absorbs the near ultraviolet light of
wavelengths shorter than 400 nm
◦ Near ultraviolet increases chromatic aberration
sensitivity of the eye shifts toward the red end of
the spectrum as the illumination is increased
◦ rods - peak sensitivity at 500 nm (bluegreen)
◦ cones - peak sensitivity 562 nm (yellowgreen)
◦ Cones respond to long wavelength – less aberration
pigmentation of the macula lutea
◦ Absorption of violet and blue regions