METHODOLOGY FOR SOLVING PROBLEMS RELATED TO THE THIN LENS FORMULA
Abstract
This article is devoted to thin lenses and outlines methodologies for solving problems based on the formulas for the focal length and optical power of thin lenses. Solving these problems requires a thorough understanding of image formation by thin lenses.
References
[1] A.A.Uzoqov, Kh.A.Madraimov. Methodology for calculating the thin lens formula. American Journal of Multidisciplinary Bulletin, 3(4), 101–107. (2025)
[2] A.A.Uzoqov, Sh.Abdullayev, H.Mamatqulova. Methodology for calculating the thin lens formula. American Journal of Education and Technology, 3(4), 291–296. (2025)
[3] A.A.Uzoqov, Kh.A.Madraimov. Methodology for solving problems related to the phenomena of refraction and reflection of light in a thin plate. American Journal of Multidisciplinary Bulletin, 2(5), 251–260. (2024)
[4] U.K.Sapaev, D.B.Yusupov, A.A.Sherniyozov, A.A.Uzakov. Theory of backward second-harmonic generation of short laser pulses in periodically and aperiodically poled nonlinear crystals. Journal of Russian Laser Research, 33, 196–210. (2012)
[5] D.B.Yusupov, A.A.Uzakov, U.K.Sapaev, T.B.Usmanov. Phase-modulated pulses at the transient second harmonic generation in periodic nonlinear media. Uzbekistan Journal of Physics, 4. (2002)
[6] D.B.Yusupov, U.K.Sapaev, A.A.Sherniyozov, A.A.Uzokov. Pulse shaping via forward second harmonic generation in nonlinear photonic crystals. Uzbekistan Journal of Physics, 16. (2014)
