Simpson's rules (ship stability)

Simpson's rules are a set of rules used in ship stability and naval architecture, to calculate the areas and volumes of irregular figures.^[1] This is an application of Simpson's rule for finding the values of an integral, here interpreted as the area under a curve.

Simpson's 1st rule[edit]

Also known as the 1–4–1 rule (after the multipliers used ).^[2]

{\text{Area}}={\frac {h}{3}}(a+4b+c).

Simpson's 2nd rule[edit]

Also known as the 1–3–3–1 rule, Simpson's second rule is a simplified version of Simpson's 3/8 rule.^[3]

{\text{Area}}={\frac {3h}{8}}(a+3b+3c+d).

Simpson's 3rd rule[edit]

Also known as the 5–8–1 rule,^[4] SImpson's third rule is used to find the area between two consecutive ordinates when three consecutive ordinates are known.^[5]

{\text{Area}}={\frac {h}{12}}(5a+8b-c).

This estimates the area in the left half of the figure for Simpson's 1st Rule while using all three pieces of data.

Use of Simpsons rules[edit]

Simpson's rules are used to calculate the volume of lifeboats,^[6] and by surveyors to calculate the volume of sludge in a ship's oil tanks. For instance, in the latter, Simpson's 3rd rule is used to find the volume between two co-ordinates. To calculate the entire area / volume, Simpson's first rule is used.^[7]

Simpson's rules are used by a ship's officers to check that the area under the ship's GZ curve complies with IMO stability criteria.

References[edit]

^ Bryan Barass; D.R.Derett. Ship stability for Masters and Mates (PDF). United Kingdom: Elsevier Butterworth. p. 69.
^ Rhodes, Martin (2003). Ship Stability for Mates/Masters. United Kingdom: Seamanship International. p. 70.
^ Subramaniam, Capt. Harry. Nutshell series – Ship Stability III. Mumbai, India: Vijaya Publications.
^ Donkum, Enkhuizen, Van (2010). ShipStability. Dokmar publications. ISBN 978-90-71500-15-2.
^ Bhange, Archana Ashish (February 2017). "Simpson's Rules and It's Application in Ship Stability" (PDF). International Journal of Computer & Mathematical Sciences. 6: 7.
^ Kitching, Capt. R.C.E. Introduction to Ship Stability. Canada: Starpath Publications.
^ V.L. Belenky; N.B Sevastianov (2007). Stability and Safety of Ships. USA: The Society of Naval Architects and Marine Engineers. ISBN 978-0-939773-61-9.

[derett-1] Bryan Barass; D.R.Derett. Ship stability for Masters and Mates (PDF). United Kingdom: Elsevier Butterworth. p. 69.

[2] Rhodes, Martin (2003). Ship Stability for Mates/Masters. United Kingdom: Seamanship International. p. 70.

[3] Subramaniam, Capt. Harry. Nutshell series – Ship Stability III. Mumbai, India: Vijaya Publications.

[4] Donkum, Enkhuizen, Van (2010). ShipStability. Dokmar publications. ISBN 978-90-71500-15-2.

[5] Bhange, Archana Ashish (February 2017). "Simpson's Rules and It's Application in Ship Stability" (PDF). International Journal of Computer & Mathematical Sciences. 6: 7.

[6] Kitching, Capt. R.C.E. Introduction to Ship Stability. Canada: Starpath Publications.

[7] V.L. Belenky; N.B Sevastianov (2007). Stability and Safety of Ships. USA: The Society of Naval Architects and Marine Engineers. ISBN 978-0-939773-61-9.

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