1. Sight
11.2

2. The structure of our eye
eyeball
eye muscles
orbit (眼窩)
eye muscles
skull

3. How do we see?

4. How is an image formed in the eye?
3 The light-sensitive cells on the retina are stimulated by light.

5. How is an image formed in the eye?
The process of how we see:
light from an object
cornea
lens
bends the light

6. How is an image formed in the eye?
The process of how we see:
lens
retina
bends the light which is then focused onto

7. light-sensitive cells (receptors)
How is an image formed in the eye?
The process of how we see:
retina
light-sensitive cells (receptors)
contains

8. light-sensitive cells (receptors)
How is an image formed in the eye?
The process of how we see:
light-sensitive cells (receptors)
brain
stimulated by the light and send messages to

9. upright image of the object
How is an image formed in the eye?
The process of how we see:
brain
upright image of the object
interprets the messages as

10. How is an image formed in the eye?3
They send messages to the brain along the optic nerve.
brain

11. How is an image formed in the eye?
4 The brain interprets the messages as an upright image.

12. Seeing objects at different distances
focusing on the words
near objects

13. Seeing objects at different distances
focusing on the bird
distant object

14. Seeing objects at different distances
How can we see objects at different distances?

15. 11.3 Focusing with lenses of different thickness screen
Experiment video
Focusing with lenses of different thickness
screen
thin convex lens 1
light source

16. Seeing objects at different distances
our lens is elastic

17. Seeing objects at different distances
thickness can be changed

18. Seeing distant objects

19. Seeing distant objects
light from a point on a distant object
lens becomes thinner

20. Seeing near objects

21. Seeing near objects
light from a point on a near object
lens becomes thicker

22. Seeing objects at different distances
When we look at distant objects, the lens becomes thinner.

23. Seeing objects at different distances
When we look at near objects, the lens becomes thicker.

24. Seeing colours
cone cell (視錐細胞)
rod cell (視桿細胞)

25. Seeing colours cone cell (視錐細胞) rod cell (視桿細胞)
responsible for black and white vision

26. Seeing colours cone cell (視錐細胞) rod cell (視桿細胞)
important for vision in dim light

27. Seeing colours cone cell (視錐細胞) rod cell (視桿細胞)
works best in bright light

28. Seeing colours cone cell (視錐細胞) rod cell (視桿細胞)
responsible for colour vision

29. Seeing colours
red cone cell
green cone cell
blue cone cell

30. Seeing colours red cone cell green cone cell blue cone cell red light
sensitive to
red cone cell
green cone cell
blue cone cell
red light
green light
blue light

34. Seeing colours
There are two types of light-sensitive cells on the retina:
rod cells are responsible for
black and white vision;
cone cells are responsible for colour vision.

35. 35 2
2a Light is focused onto the retina by the sclera. T F

36. 36 2
b When seeing a distant object, the lens becomes thinner. T F

37. 37 2
c The rod cells on the retina allow us to see when there is no light in our surroundings. T F

38. 2 Well done! 3 Cone cell Rod cell _______ types (sensitive to _______,38 2
Well done! 3
Cone cell
Rod cell
_______ types
(sensitive to _______,
_______ and _______
light)
_______ type only
Work well in _______ light
Work well even in _______ light
Responsible for _______ vision
Responsible for _______
___________ vision
Three
red
One
green
blue
bright
dim
colour
black
and white

39. The limitations of our eyes
Tap water looks clean. Let me drink it directly.
I’m very thirsty.

40. The limitations of our eyes
Don’t do that!
There may be harmful bacteria in tap water.

41. The limitations of our eyes
They are too small to be seen.

42. The limitations of our eyes
Our eyes cannot see clearly when the object is too small, too near or too far away.

43. Astronomical telescope
11.3
Instruments
Hand lens
Microscope
Binoculars
Astronomical telescope
Flying birds in the sky
Small insects
Onion cells
Jupiter
Objects

44. The limitations of our eyes
Using suitable instruments can help us see objects that are too small or too far away.

45. Blind spot
Is there any other limitation of our eyes?

46. 11.4
Where has the rabbit gone?
1 Hold your book.
30 cm

47. 11.4
2 Cover your left eye and look at the hunter on your book with your right eye.

48. 11.4
3 Move the book towards you slowly.

49. 11.4 3
What happens to the rabbit?
The rabbit disappears when the book is held at a certain distance.

50. Blind spot
retina
no light-sensitive cell
blind spot
optic nerve

51. Blind spot image formed on the blind spot no message will be sent

52. Blind spot
We cannot see the images formed on the blind spot.

53. Common eye defects (眼睛毛病):
short sight (近視)
long sight (遠視)
cataract (白內障)
astigmatism (散光)
glaucoma (青光眼)
colour blindness (色盲)

54. but not distant objects
Short sight and long sight
People with short sight can see:
near objects clearly;
but not distant objects

55. distant objects clearly;
Short sight and long sight
People with long sight can see:
distant objects clearly;
but not near objects

56. Short sight and long sight
What are the causes of short sight and long sight?
How can they be corrected?

57. 11.4 Short sight, long sight and their corrections 1
Experiment video
Short sight, long sight and their corrections 1
fluorescent solution
round-bottomed flask

58. 58
11.4 5a
concave lens (凹透鏡)
convex lens (凸透鏡)

59. Short sight
Short sight may be caused by: OR
OR BOTH
lens being too thick
eyeball being too long

60. Short sight
cannot see distant objects clearly

61. Short sight
image formed in front of the retina
light from a distant object

62. Short sight
Correction
sharp image formed on the retina
concave lens

63. eyeball being too short
Long sight
Long sight may be caused by: OR
OR BOTH
lens being too thin
eyeball being too short

64. Long sight
cannot see near objects clearly

65. Long sight
image formed behind the retina
light from a near object

66. Long sight
sharp image formed on the retina
Correction
convex lens

67. Cataract
lens becomes cloudy

68. Cataract cloudy lens blocks some of the light
blurred vision, even blindness

69. Cataract Smoking Eye Diabetes injuries Risk factors Prolonged exposure
to sunlight
Ageing

70. Cataract
can be cured by:
replacing it with an artificial lens

71. Astigmatism cornea or lens being irregularly shaped
light cannot focus on the retina as a sharp image
blurred vision

73. Astigmatism Causes: inherited
incorrect posture or an increased use of the eyes for close work

74. Astigmatism Correction:
wear lenses that are curved to suitable degrees at different points

75. Glaucoma caused by an increased fluid pressure in the eye
the optic nerve will be damaged gradually
loss of peripheral vision

76. loss of peripheral vision
Glaucoma
loss of peripheral vision

77. Glaucoma
In serious cases
loss of central vision and blindness

78. Glaucoma
no cure
if detected early and treated properly, further damage to vision may be prevented

79. Glaucoma
Treatments:
eye drops
drugs
surgery

80. Colour blindness
People with colour blindness cannot distinguish some or all colours.

81. Colour blindness
cone cells
not working properly

82. Colour blindness
The most common form is red-green colour blindness.

83. red-green colour blindness
The image seen by people with:
red-green colour blindness
normal sight

84. Colour blindness inherited; cannot be corrected
more commonly found in males

85. Colour blindness
What do you see in the diagrams? 29 2 6

86. No number/ drawing could be seen
Colour blindness
What do you see in the diagrams?
No number/ drawing could be seen
drawing of a camel

88. Answer: Everyone should be able to see a circle, star, and square in the demonstration plate.

91. Eye defects
Short sight, long sight, cataract, astigmatism, glaucoma and colour blindness are some common eye defects.

92. Eye care 1 Read under sufficient but not strong light.
Keep a distance of 30 cm

93. Eye care 2
Keep a distance of 40 to 60 cm

94. Eye care 3 After reading a book or using a computer for 30 minutes,
Take a 5 to 10-minute break

95. Eye care
4 Wear sunglasses under strong sunlight.

96. Eye care
5 Have regular eye checks.

97. Eye care
6 Do not rub your eyes to avoid infection.

98. 3 1 Eye defect Problem Cause Correction Short sight Cannot see98 3 1
Eye defect
Problem
Cause
Correction
Short sight
Cannot see
_________
objects
clearly
Lens too
and/or
eyeball too
Wear
lenses
distant
thick
concave
long

99. 3 1 Eye defect Problem Cause Correction Long sight Cannot see ________99 3 1
Eye defect
Problem
Cause
Correction
Long sight
Cannot see ________
objects clearly
Lens too ________
and/or eyeball too
________
Wear ________ lenses
near
thin
convex
short

100. 3 1 Eye defect Problem Cause Correction Cataract ________ vision
100 3 1
Eye defect
Problem
Cause
Correction
Cataract
________ vision
Blurred
Lens becomes
________
Replace the ________ with an artificial one
lens
cloudy

101. 3 1 Eye defect Problem Cause Correction Astigmatism ________ vision
101 3 1
Eye defect
Problem
Cause
Correction
Astigmatism
________ vision
Blurred
________ or _______ irregularly shaped
Cornea
Wear lenses that are curved to suitable degrees at different points
lens

102. 3 1 Eye defect Problem Cause Correction Glaucoma Vision loss
102 3 1
Eye defect
Problem
Cause
Correction
Glaucoma
Vision loss
Increased fluid
_________ in the eye damages the optic nerve
Early detection and treatment can prevent or ________ further damage to vision
pressure
delay

103. 3 1 Eye defect Problem Cause Correction Colour blindness
103 3 1
Eye defect
Problem
Cause
Correction
Colour blindness
Cannot distinguish
________
One or more types of the
_________
not working properly
Cannot be corrected
colours
cone cells

104. 104 3
2a We can see distant objects clearly with the help of a hand lens. T F

105. 105 3
b Light from an object can be focused on the blind spot. T F

106. 106 3
Very good!
c Colour blindness is caused by defects in the rod cells on the retina. T F