Re-examination of centre of buoyancy curve and its evolute for rectangular cross section, Part 2: Using quadratic functions

Ban, Dario

doi:10.21278/brod74302

Brodogradnja : An International Journal of Naval Architecture and Ocean Engineering for Research and Development, Vol. 74 No. 3, 2023.

Original scientific paper

Re-examination of centre of buoyancy curve and its evolute for rectangular cross section, Part 2: Using quadratic functions

Dario Ban orcid.org/0000-0002-8456-879X ; University of Split, Faculty of Electrical Engineering, Mechanical Engineering and Naval Architecture, 21000 Split, Croatia

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APA 6th Edition

Ban, D. (2023). Re-examination of centre of buoyancy curve and its evolute for rectangular cross section, Part 2: Using quadratic functions. Brodogradnja, 74 (3), 17-45. https://doi.org/10.21278/brod74302

MLA 8th Edition

Ban, Dario. "Re-examination of centre of buoyancy curve and its evolute for rectangular cross section, Part 2: Using quadratic functions." Brodogradnja, vol. 74, no. 3, 2023, pp. 17-45. https://doi.org/10.21278/brod74302. Accessed 23 Apr. 2024.

Chicago 17th Edition

Ban, Dario. "Re-examination of centre of buoyancy curve and its evolute for rectangular cross section, Part 2: Using quadratic functions." Brodogradnja 74, no. 3 (2023): 17-45. https://doi.org/10.21278/brod74302

Harvard

Ban, D. (2023). 'Re-examination of centre of buoyancy curve and its evolute for rectangular cross section, Part 2: Using quadratic functions', Brodogradnja, 74(3), pp. 17-45. https://doi.org/10.21278/brod74302

Vancouver

Ban D. Re-examination of centre of buoyancy curve and its evolute for rectangular cross section, Part 2: Using quadratic functions. Brodogradnja [Internet]. 2023 [cited 2024 April 23];74(3):17-45. https://doi.org/10.21278/brod74302

IEEE

D. Ban, "Re-examination of centre of buoyancy curve and its evolute for rectangular cross section, Part 2: Using quadratic functions", Brodogradnja, vol.74, no. 3, pp. 17-45, 2023. [Online]. https://doi.org/10.21278/brod74302

Abstract

In this paper, exact hydrostatic particulars equations for the centre of buoyancy curve and metacentric locus curve are given for rectangular cross section using quadratic functions. Those equations have not been given for the hyperbola range of the heel angles so far, and here it is done by using basic quadratic functions and their horizontally symmetric immersion shapes, with two new methods defined: 1. Rotation of basic cross section shapes, and 2. Hydrostatic cross section area complement method that uses homothety or scaling properties of emerged and immersed areas of the rectangular cross section. Observed metacentric curve for rectangle consists of semi-cubic parabolas and Lamé curve with 2/3 exponent and negative sign, resulting in the cusp discontinuities in the symmetry of those functions definition. In order to achieve above, two theorems are given: the theorem about scaling using hydrostatic cross section area complement and the theorem about parallelism of centre of buoyancy tangents with waterlines. After non-dimensional bounds are given for the existence of the swallowtail discontinuity of metacentric curve for rectangular cross section in the Part 1 of this paper, the proof of its position in the symmetry of rectangle vertex angle is given in this Part 2 of the paper, thus confirming its position from theory.

Keywords

centre of buoyancy curve; metacentric curve; rectangular cross section; quadratic functions; basic geometric shapes; hydrostatic area complement

Hrčak ID:

301290

URI

https://hrcak.srce.hr/301290

Publication date:

1.6.2023.

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Brodogradnja : An International Journal of Naval Architecture and Ocean Engineering for Research and Development, Vol. 74 No. 3, 2023.

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