Find the moment of statical stability when a ship of 10,450 tons displacement is heeled 6 degrees if the GM is 0.5 m.
Given:
GM = 0.5 m
Angle of heel = 6 degrees
Displacement = 10,450 tons
What is asked?
Moment of Statical Stability (MSS)
Solution:
MSS = Weight × GM × Sin θ
MSS = 10,450 tons × 0.5 m × Sin 6°
MSS = 546.2 ton-meters
 |
| Moment Of Statical Stability |
You Might Also Like
- Question From Readers #1
- Question From Readers #3
- Question From Readers #5
- Question From Readers #6
- Question From Readers #7
- Question From Readers #8
- Question From Readers #16
- Question From Readers #17
- Question From Readers #18
- Question From Readers #19
- Question From Readers #20
- TPC Formula
- Change Of Trim
- Find The Initial Metacentric Height
- Allowable Increase In Draft
- Height Of Center Of Gravity
- Rolling Period Formula
- How To Solve Ship's New Draft
- Solving Shift In The Center Of Gravity
- Solving For Vessel's Trim
- Calculate Whether The Ship Is Hogging Or Sagging
- Finding Ship's New Draft
- Ship's Squat Formula
- Rolling Period Formula In Still Water
- Solving For The Righting Arm
- Reduction In GM
- Find The Height Of The Metacenter Above Keel
- Finding Displacement Of A Vessel
PLS DO A CALCULATION OF 1ST AND SECOND TRIM CORRECTION. TNX SIR
ReplyDeletewrite the formula for dynamic stability.a ship of 12000 t displacement has an initial metacentric height of 2m .what is the dynamic stability when the ship is heeled 15 degree
ReplyDeleteA ship has a KG of 6.40m, km 7.10 and displaces 25000 tonnes . Calculate the moment of statical stability when the ship is 7 degree .
ReplyDelete