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Today 2/7. Diverging Lenses--Ray Diagrams and Math HW Questions? Start reading chapter 26.6-8 on Lenses HW: “2/7 Diverging Lens” (three pages) Due Wednesday 2/12 Exam I Thursday, Feb 13. Lenses -- Wave Picture. A converging lens bends light toward the axis. focal length. focal length.
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Today 2/7 • Diverging Lenses--Ray Diagrams and Math • HW Questions? • Start reading chapter 26.6-8 on Lenses • HW: “2/7 Diverging Lens” (three pages) Due Wednesday 2/12 • Exam I Thursday, Feb 13
Lenses -- Wave Picture A converging lens bends light toward the axis
focal length focal length Converging Lenses Focal point is the place on the axis where all rays arriving parallel to the axis are directed There is a second focal point on the input side where all rays directed away from it leave parallel to the axis “In through focus-out parallel” “In parallel-out through focus”
Converging Lens-Ray Diagrams d0 object distance image distance di f = +4cmd0 = +2cmdi = -4cmh0 = +1cmhi = +2cmm = +2 (no units) f f Now we have to “backtrack” the rays to see where they seem to come from!
Magnification equation Equations Thin lens equation f focal length always + for converging lens (- for diverging)d0 object distance + if on input sidedi image distance + if output side (- if on input side)m magnification+ if image is (- if image inverted)h height + if not inverted (- if inverted)
Lenses -- Wave Picture A converging lens bends light toward the axis A diverging lens bends light away from the axis
Lenses -- Wave Picture A converging lens bends light toward the axis Focal point is a place on the axis where all rays directed parallel to the axis arrive
Lenses A diverging lens bends light away from the axis Now the Focal point is a place on the axis where all rays directed parallel to the axis seem to come from
Lenses There is a second Focal point on the axis. Any ray directed toward it from the far side are directed parallel to the axis. Now the Focal point is a place on the axis where all rays directed parallel to the axis seem to come from
Diverging Lens-Ray Diagrams di Bend the ray at the middle of the lens In parallel-out as if from left focus In as if toward right focus-out parallel Also straight through the center of the lens f f For lenses (both types) di is positive on the right.Here di will be a negative number. f is negative for diverging lenses.
Diverging Lens-Ray Diagrams and Math di d0 = +12 cm, f = -4 cm find di, m, hi f f
Virtual and Real Images Real: Virtual: A screen placed at the image will not produce an image. A screen placed at the image will produce an image. All image forming rays actually pass through the image. At most only one image forming ray will pass through the image.