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Test Corrections
• Due Tuesday, April 26th
• Corrections must be done in a different ink color• Lots of 4’s for effort – doesn’t mean answer is right!
• Check solutions• Show formula, explain your conclusions
• Mistake in my solutions• No points deducted for effort• One person did it correctly and got 1 point extra credit!
General Physics 2 Geometric Optics 1
General Physics 2 Geometric Optics 2
Geometric Optics
• Ray Model• assume light travels in straight line• uses rays to understand and predict reflection &
refraction
General Physics 2 Geometric Optics 3
Reflection
• Law of reflection• the angle of incidence equals angle of reflection• angles are measured from normal
General Physics 2 Geometric Optics 6
Think-Pair-Share
• How large a mirror do you need to see your whole body?
General Physics 2 Geometric Optics 7
Spherical Mirrors
By using ray tracing and the law of reflection, youcan figure out where the incoming rays are reflected.
General Physics 2 Geometric Optics 8
Focal Point & Focal Length
• Parallel rays striking a concave mirror come together at focal point
f = r/2
r = radius of spheref = focal length
General Physics 2 Geometric Optics 9
Refraction
• index of refraction, n, where c = speed of light in a vacuum and v = speed of light in that medium
• nair = 1
• nglass = 1.5
• Snell’s Law
General Physics 2 Geometric Optics 11
Total Internal Reflection• Incident angle where refracted angle (2) is 90 is the
critical angle
• at incident angles greater than critical angle, light is totally internally reflected
important for fiber optic technology (endoscope)
General Physics 2 Geometric Optics 13
Focal Length, Focal Plane and Power
• f = focal length• Power
• inverse of focal length• P = 1/f• measured in diopter (D)• 1 D = 1 m-1
General Physics 2 Geometric Optics 16
Sign Conventions• focal length
• positive for converging lenses• negative for diverging lenses
• object distance • positive if the object is on the side of the lens from which the light is
coming (this is usually the case)• otherwise, it is negative (virtual object).
• image distance • positive if the image is on the opposite side of lens from where light is
coming• positive for real images, negative for virtual images
• image height• positive if image is upright relative to object, negative for inverted
images• h0 is always positive
General Physics 2 Geometric Optics 17
Combination of Lenses
• When adding two or more lenses in series, the focal length of the combined lenses, f, is:
General Physics 2 Geometric Optics 18
Combining Lenses
• Measure the focal length of the two double-convex lenses individually.
• Combine the lenses together and measure the combined focal length.
• Calculate the combined focal length using the equation.
• Calculate the percent error of your measured value.