purpose of this minilab
DESCRIPTION
Purpose of this Minilab. Use lens formula to determine focal length of a lens. Learn about image magnification in magnifying glasses, microscopes, and telescopes. Activity 1: Focal Length of a Lens. Method 1:. f. Flashlight or table lamp at the end of classroom (long distance - PowerPoint PPT PresentationTRANSCRIPT
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Purpose of this Minilab
• Use lens formula to determine focal length of a lens.
• Learn about image magnification in magnifying glasses, microscopes, and telescopes.
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Activity 1: Focal Length of a Lens
Flashlight or table lamp at the end of classroom (long distancecompared to focal length).
Light rays enter lens approximately parallel.
Screen or sheet ofpaper to see image.
Lensf
Method 1:
Move sheet until image is in focus.Then measure f.
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Move sheet until image is in focus.Then measure so and si and calculate f with:
Activity 1: Focal Length of a Lens
Object (illuminated crosson the light source)
Screen or sheet ofpaper to see image.
si
Method 2:
so
io ssf111
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
The Imaging Equation for Lenses
fss io
111
so: object distancesi: image distancef : focal length
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Sign Rules For Lenses
Convex lenses: f is positiveConcave lenses: f is negative
Real objects: so is positiveVirtual objects: so is negative
Real images: si is positiveVirtual images: si is negative
Most objects are real.
Virtual images cannot be picked up with a screen.
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Virtual or Real Image?
fsifimagevirtualsfsifimagereals
sfs
oi
oi
oi
)(0)(0
:lens)(convex f positivefor
111
In Activity 1.2 (using a converging lens) place the object at a distance larger than f away from the lens to get a real image.
Hint: To answer Q1, do a similar analysis for the concave lens (f < 0).
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Activity 2: Magnification
sizeobject size image :ionMagnificat
'
hhM
so si
h’
h aa
io s
h
sh '
tan ao
i
ss
hh
'
o
i
ss
hhM
'
An inverted imagemeans that h’and h haveopposite sign. M < 0
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
2.2 Virtual image magnification (magnifying glass)
Without the magnifying glass:
eye25 cm (typical nearest distance a human can focus on)
With the magnifying glass:
eye
125
fcmM
f
virtual image
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Verifying this magnification of a magnifying glass
1) Tape linear graph paper on viewing screen.2) Place lens about 25cm away from screen.3) Hold a second piece of graph paper close to lens.4) Move your eye close to the lens.5) Move the second piece of graph paper so it is in focus.6) Compare the size of graph paper seen through the lens
with the size of the graph paper on the screen (seen not through the lens). See next page for illustration.
your eye (closeto lens)
25 cm
Optical Bench
viewing screen
linear graphpaper
lensf = +100mm
hand held linear graphpaper (close to lens)
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
What you should see ….
lens
viewing screen
graph paper onviewing screen
hand heldgraph paper
hand held graph paperseen through lens
Compare:3.5 divisionson the graph papertaped to the screen= 1 division on thehand held graphpaper seenthrough the lens.
M=3.5 (in this example)
…then check whether this agrees with 125
fcmM
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Remarks to formula for magnifying glass….
The actual magnification depends on exactly where the object is placed:
If the object you magnify is placed exactly at the focal point of themagnifying glass, then
If you move the object even closer to the lens, the magnification can getas high as
You could get a theoretical value anywhere between those two magnifications, depending on where exactly you hold the paper.
fcmM 25
125
fcmM
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Activity 3: Microscope
eye
si so
objectivefo=200mm
eyepiecefe=100mm
125
fcmM e
o
io s
sM
125
fcm
ssMMMo
ieo
need so > fo
real imagebetween lenses
virtual image
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Microscope: Building Instructions
Step 1: Install light source and objective lens.
optical bench
light source
illuminated arrowon this side
200mm lens(objective)
so 30cm measure si
handheld piece of paper:move so that the image of the arrow is in focus.
record so and si
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Microscope: Building Instructions
Step 2: Install eyepiece lens.
optical bench
200mm lens(objective)
so 30cm Si (as previously determined)
100mm lens(eyepiece)
some smalldistance further
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Microscope: Building Instructions
Step 3: Replace light source with white viewing screen
optical bench
200mm lens(objective)
so 30cm Si
100mm lens(eyepiece)
whiteviewingscreen
Viewing screen must be placed where the arrow used to be.
Cover the viewing screen with linear graph paper.
linear graphpaper
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Microscope: Building Instructions
Step 3: Look through eyepiece and adjust it’s position.
optical bench
200mm lens(objective)
so 30cm Si
100mm lens(eyepiece)
whiteviewingscreen
linear graphpaper
eye
Adjust eyepiece positionso that the image of thegraph paper is in focus.
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Microscope: Measuring the magnification
optical bench
200mm lens(objective)
100mm lens(eyepiece)
linear graphpaper
eye
Step 1: Hold a second piece of graph paper approximately 25cm from your eye.That extra graph paper should be a bit to the side so you can still see the image of the graph paper that is on the viewing screen.
25cm
hand held linear graphpaper
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Step 2: What you should see ….and measure
viewing screen
graph paper onviewing screen
hand heldgraph paper(25cm fromeye)
image of graph paperon viewing screen
Compare:2.8 divisionson the hand held graph paper= 1 division on the image ofGraph paper taped to the screen.
M=2.8 (in this example) …then check whether this agrees with
125
fcm
ssMo
i
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Activity 3: Telescope
eye
si fo
so (looking at far away objects)
objectivefo=350mm
eyepiecefe=100mm
e
o
ffM
virtual image
fe
fo + fe
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Telescope: Building Instructions
Install objective and eyepiece
optical bench
350mm lens(objective)
100mm lens(eyepiece)
Separate objective and eyepieceby fo+fe (=450mm)
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Telescope: Measuring the Magnification
350mm lens(objective)
100mm lens(eyepiece)
optical bench
View white board throughtelescope from the back ofthe room.
White board in the front of the room.Draw a thick scale on the white board.Illuminate the scale with a lamp.
lamp
eye
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
What you should see …
white board
Compare scale seen throughtelescope with scale seendirectly to determine M.
Here: Magnification looks like M - 2.3 (negative because inverted)
telescope eyepiece
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Physics 1809 Optics 2: Spherical Lenses and Optical Instruments
Using the Desk Lamp
Dimmer
Lamp Plug (black) must be pluggedinto dimmer plug.Dimmer plug (white) must be pluggedinto power outlet.
On/Offswitchof lamp