The immersed cross-sectional area of a ship 120m long, commencing from aft are 2,40,79,100,103,104,104,103,97,58 and 0 m2 calculate - (i) Displacement; (ii) Longitudinal position of the centre of buoyancy
If you are noticing some error in problems kindly comment below.Thanks
Given
L = 120 m
To find
i) Displacement
ii) Longitudinal position of the centre of buoyancy
Solution
Area | SM | Product for volume | Lever | Product for 1stmoment |
2 | 1 | 2 | +5 | +10 |
40 | 4 | 160 | +4 | +640 |
79 | 2 | 158 | +3 | +474 |
100 | 4 | 400 | +2 | +800 |
103 | 2 | 206 | +1 | +206 |
104 | 4 | 416 | 0 | Σma = +2130 |
104 | 2 | 208 | -1 | -208 |
103 | 4 | 412 | -2 | -824 |
97 | 2 | 194 | -3 | -582 |
58 | 4 | 232 | -4 | -928 |
0 | 1 | 0 | -5 | 0 |
Σv = 2388 | Σmf = -2542 |
It is given that L = 120 m and there are 10 equidistant spaces. So common interval
h = 120 / 10
= 12 m
i) We know that displacement = Density x Under water volume ----------------(1)
But Under water volume = (h/3) x Σv
= (12/3) x 2388
= 9552 m3
(1) -------------------------->
Displacement = 1.025 x 9552
= 9790.8 tonne
ii) Centre of buoyancy from midship = h x (Σma + Σmf) / Σv
= 12 x (2130 - 2542 ) / 2388
= 2.070 m forward
NOTE : If Σma is greater than Σmf , the buoyancy will be forward of midship.
Shouldn't the center of buoyancy be AFT of midship here?
ReplyDeleteShouldn't the center of buoyancy be AFT of midship here?
ReplyDeleteThis comment has been removed by the author.
ReplyDelete