AYLANA VA ELLIPSNING TEGISH NUQTALARINI ANIQLASH

Narzullayeva Oyshaxon

doi:10.5281/zenodo.21062367

25.06.2026

Oʻzbekcha

AYLANA VA ELLIPSNING TEGISH NUQTALARINI ANIQLASH

Дата публикации

25.06.2026

Журнал

Ta'lim ufqlari

Выпуск

"Ta'lim ufqlari" ilmiy-uslubiy jurnali 2026-yil 1-son

Страницы

71-73

DOI

10.5281/zenodo.21062367

Авторы

Narzullayeva Oyshaxon

Аннотация

Ushbu maqolada ellipsga ichki chizilgan ikkita aylana va ularning ellips bilan tegish nuqtalarini birlashtiruvchi to‘g‘ri chiziqlar haqidagi teoremanining isboti taqdim etiladi. Teorema shuni ta’kidlaydiki, bunday har qanday to‘g‘ri chiziq ikkala aylanadan teng uzunlikdagi vatalalar kesib oladi. Isbot ellipsning fokal xossalari, ichki chizilgan aylana markaziga tushirilgan perpendikulyar va vatalani hisoblashning klassik formulasidan foydalanadi. Natija ellips va aylana o‘rtasidagi simmetriyaning nozik xususiyatini ochib beradi.

Ключевые слова

ellips fokal radius ichki chizilgan aylana ikkinchi tartibli egri chiziq isbotlash simmetriya tegish nuqtasi tekislik geometriyasi vatala

Версии на других языках

Русский

вписанная окружность геометрия на плоскости доказательство кривая второго порядка симметрия точка касания фокальный радиус хорда эллипс

English

This article presents a proof of the theorem concerning two circles inscribed in an ellipse and the lines connecting their tangent points with the ellipse. The theorem states that any such line cuts equal chords from both inscribed circles. The proof employs the focal properties of the ellipse, perpendiculars dropped from the centres of the inscribed circles to the chord line, and the classical chord-length formula. The result reveals a subtle symmetry property between an ellipse and its inscribed circles.

chord ellipse focal radius inscribed circle plane geometry proof second-order curve symmetry tangent point

Список литературы

1. Prasolov V.V., Tikhomirov V.M. Geometriya. – Moskva: MSNMO, 2007. – 336 b.

2. Efimov N.V. Analitik geometriya kursi. – Toshkent: O‘qituvchi, 1985. – 312 b.

3. Berger M. Geometry I. – Berlin: Springer, 2009. – 427 p.

4. Coxeter H.S.M. Introduction to Geometry. – New York: Wiley, 1969. – 469 p.

5. Uspensky V.A. Ellips, giperbola, parabola. – Moskva: Nauka, 1973. – 96 b.

Просмотреть PDF