- Looks Like Experts On Chegg Can T Even Read The Question Lol This Is An Optics Question Chegg Defunctioned The Comm 1 (78.46 KiB) Viewed 42 times
Looks like "experts" on answers can't even read the question. Lol. This is an optics question! answers defunctioned the comm
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answerhappygod
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Looks like "experts" on answers can't even read the question. Lol. This is an optics question! answers defunctioned the comm
Looks like "experts" on answers can't even read the question. Lol.This is an optics question! answers defunctioned the comment sonobody can make a complaint. That's a great businessstrategy.
OLD 2 1 Figure 9.33 34 P9.16 Use a computer program to calculate the ABCD matrix for the com- pound system shown in Fig. 9.33, known as the "Tessar lens." The details of this lens are as follows (all distances are in the same units, and only the magnitude of curvatures are given-you decide the sign): Convex-convex lens 1 (thickness 0.357, R₁ = 1.628, R₂ = 27.57, n = 1.6116) is separated by 0.189 from concave-concave lens 2 (thickness 0.081, R₁ = 3.457, R₂ = 1.582, n = 1.6053), which is separated by 0.325 from plano-concave lens 3 (thickness 0.217, R₁ = ∞o, R₂ = 1.920, n = 1.5123), which is directly followed by convex-convex lens 4 (thickness 0.396, R₁ = 1.920, R₂ = 2.400, n = 1.6116).
OLD 2 1 Figure 9.33 34 P9.16 Use a computer program to calculate the ABCD matrix for the com- pound system shown in Fig. 9.33, known as the "Tessar lens." The details of this lens are as follows (all distances are in the same units, and only the magnitude of curvatures are given-you decide the sign): Convex-convex lens 1 (thickness 0.357, R₁ = 1.628, R₂ = 27.57, n = 1.6116) is separated by 0.189 from concave-concave lens 2 (thickness 0.081, R₁ = 3.457, R₂ = 1.582, n = 1.6053), which is separated by 0.325 from plano-concave lens 3 (thickness 0.217, R₁ = ∞o, R₂ = 1.920, n = 1.5123), which is directly followed by convex-convex lens 4 (thickness 0.396, R₁ = 1.920, R₂ = 2.400, n = 1.6116).