Hello all,

Tonight I am attempting the below problem:

The given correct answer is given as 14.49m for the centre of gravity from the keel of the platform i.e. KG=14.49m

I have so far approached this as follows:

I.e. the transverse Gravity to the Metacentre is equal to the Keel to the centre of Buoyancy + Centre of Buoyancy to the transverse Metacentre - KG.

I.e. KG=KB+BMT-GMT

I have also worked on the assumption that:

i.e. BMT is equal to the transverse second moment of the water plane divided by the underwater volume. I've also assumed that the KB is half the draft.

Further I have assumed that as the cylindrical columns are at the waterplane, the second moment of these areas will be about a circle and can be calculated as:

i.e. Pi * diameter to the power of 4/64.

I have carried on as below.

I think that I have calculated the underwater volume correctly and the second moment for one column correctly. I am not sure how to equate the total second moment for the total waterplane i.e. all 8 columns. I am sure it is not as simple as multiplying by 8 as I have done?

Further, I believe that if KB is actually T/2, then BMT would need to be a negative value which is unlikely for the metacentre to be beneath the centre of buoyancy as the metacentre is essentially the point at which the structure will rotate about when heeling either way. In fact the more I think about it the more I believe this must be impossible. So perhaps the KB value needs to be obtained another way than by assuming it is at half the draft?

Any help warmly welcomed.

Cheers,

Andy