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Coefficient of Forms Lecture 2

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1 Coefficient of Forms Lecture 2
Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

2 Co-ordinate System of Ship
Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

3 Coefficients of form Are the dimensionless number that describes the fineness and the overall shape of the ship. Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

4 The block coefficient of fineness of displacement (Cb)
Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

5 The block coefficient of fineness of displacement (Cb)
The block coefficient of a ship at any particular draft is the ratio of the volume of displacement at that draft to the volume of a rectangular block having the same overall length, breadth and depth. Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

6 The block coefficient of fineness of displacement (Cb)
Volume of displacement Block coefficient (Cb)= Volume of the block = L x B x draft Volume of displacement = L x B x draft x Cb Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

7 The block coefficient of fineness of displacement (Cb)
Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

8 The block coefficient of fineness of displacement (Cb)
Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

9 The block coefficient of fineness of displacement (Cb)
Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

10 The coefficient of fineness of the water-plane area (Cw)
It is the ratio of the area of the water-plane to the area of a rectangle having the same length and maximum breadth. Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

11 The coefficient of fineness of the water-plane area (Cw)
Area of water-plane Coefficient of fineness (Cw ) = Area of rectangle ABCD = L x B Area of the water-plane = L x B x Cw Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

12 The coefficient of fineness of the water-plane area (Cw)
Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

13 The coefficient of fineness of the water-plane area (Cw)
Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

14 The midships coefficient (Cm)
The midships coefficient to any draft is the ratio of the transverse area of the midships section (Am) to a rectangle having the same breadth and depths. Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

15 The midships coefficient (Cm)
Midships area (Am) Midships coefficient (Cm) = Area of rectangle = B x d Midships area (Am) = L x B x Cm Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

16 The prismatic coefficient (Cp)
The prismatic coefficient of a ship at any draft is the ratio of the volume of displacement at that draft to the volume of a prism having the same length as the ship and the same cross-sectional area as the ship’s midships area. Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

17 The prismatic coefficient (Cp)
Volume of ship Prismatic coefficient (Cp) = Volume of prism = L x Am Volume of ship = L x Am x Cp Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

18 The prismatic coefficient (Cp)
Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

19 The relation between coefficients
Am Volume of ship Cm x Cp = x B x d L x Am Volume of ship = L x B x d Cm x Cp = Cb Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

20 Hull Form Coefficients
Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

21 Laboni Afroz, Assistant Professor, NAME, BUET
2/23/2019

22 Half breadth Plan Laboni Afroz, Assistant Professor, NAME, BUET
2/23/2019

23 Sheer Plan Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

24 Body Plan Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

25 Examples Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

26 Examples Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

27 Examples Laboni Afroz, Assistant Professor, NAME, BUET 2/23/2019

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