Phys 201 Image Formation 2

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Overview Verification Tips

Here we trace rays through the sphere and find the "magic point" that yields straight rays. Here we specify the thin lens equation, magnification, and how to trace the 3 Easy Rays -----Geometrical Optics playlist ...

General Reference Map

Following from our description of diffraction through an aperture with H-F wavelets, you can think of an object to be imaged as a ... The distances must be expressed in the Cartesian coordinate system so that the integral can be evaluated. Without doing any optics yet, here we think about what is required to make an

Specific Details

Without doing any optics yet, here we think about what is required to make an Something special happens if the object is too close - you don't get a real

Resource Supporting Context

We start by calculating the shape of a dielectric that will create a perfect When you calculate the diffraction patter of the object, it is a Fourier transform of the object.

Main details to review

• We start by calculating the shape of a dielectric that will create a perfect
• Here we specify the thin lens equation, magnification, and how to trace the 3 Easy Rays -----Geometrical Optics playlist ...
• Following from our description of diffraction through an aperture with H-F wavelets, you can think of an object to be imaged as a ...
• The distances must be expressed in the Cartesian coordinate system so that the integral can be evaluated.

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