The metacentric height (GM) is a characteristic of a ship which helps determines its stability in the water. Italian ship-rigged vessel Amerigo Vespucci in New York Harbor, 1976 A ship is a large, sea-going watercraft, sometimes with multiple decks. ... The word stability has a number of technical meanings, all related to the common meaning of the word. ...

The centre of buoyancy, is the centre of gravity of the volume of water which the hull displaces. This point is also referred to as B in naval architecture. When a ship is upright, the centre of buoyancy is directly below the centre of gravity of the ship. The centre of gravity is also known as G in naval architecture. In physics, the center of gravity (CoG) of an object is the average location of its weight. ... Volume, also called capacity, is a quantification of how much space an object occupies. ... Water (from the Old English word wæter; c. ... A hull is the body or frame of a ship or boat. ... The term displacement can have one of several meanings, depending on context: Displacement (distance), a physical quantity in kinematics Particle displacement, acoustics of sound in air Displacement (fluid), a different physical quantity, used in fluid mechanics and navigation; used as a measure of a ships size Engine displacement, a... The State of Maine, 1892, by Antonio Jacobsen Naval architects design barges, boats, and ships for their clients to be for use in commercial, pleasure, military, or or other applications. ...

There is a fixed point on the ship called the metacentre, which is where the upward force of the buoyancy crosses the centre line of the ship as the ship heels. When the ship is vertical it lies above the centre of gravity and so moves in the direction of heel as the ship rolls. The metacentre is also known as M in naval architecture. In physics, buoyancy is an upward force on an object immersed in a fluid (i. ...

The distance between the centre of gravity and the metacentre is called the metacentric height, and is usually between one and two metres. This distance is also abbreviated as GM. As the ship heels over, the centre of gravity generally remains fixed with respect to the ship because it just depends upon the ship's construction and cargo, but the profile of the volume of water displaced by the hull changes. The metacentre moves sideways in the direction in which the ship has rolled and is no longer directly over the centre of gravity. Proximity (2001) is also a movie with Rob Lowe, Fred Ward and James Coburn. ... metre or meter, see meter (disambiguation) The metre is the basic unit of length in the International System of Units. ...

The righting force on the ship is then caused by gravity pulling down on the hull, effectively acting on its centre of gravity, and the buoyancy pushing the hull upwards; effectively acting along the vertical line passing through the centre of buoyancy and the metacentre above it. This creates a torque which rotates the hull upright again and is proportional to the horizontal distance between the centre of gravity and the metacentre. The metacentric height is important because the righting force is proportional to the metacentric height times the sine of the angle of heel. In physics, buoyancy is an upward force on an object immersed in a fluid (i. ... In physics, torque can be thought of informally as rotational force. Torque is measured in units of newton metres, and its symbol is Ï„. The concept of torque, also called moment or couple, originated with the work of Archimedes on levers. ... In mathematics, the trigonometric functions are functions of an angle, important when studying triangles and modeling periodic phenomena. ... This article is about angles in geometry. ...

A ship with a small GM will be "tender" - have a long roll period - and if it is too small will be at risk of capsizing in rough weather. This was the cause of the loss of HMS Captain in 1870. If a ship is damaged and partially flooded one effect is to reduce the metacentric height and make it less stable. A larger metacentric height on the other hand gives a ship a short roll period and good stability, but if it is too large the ship is "stiff" - uncomfortable for passengers because it quickly jumps back upright after a wave or wind gust which heeled it over has passed. HMS Captain was a revolutionary masted turret ship of the Royal Navy launched in 1869, and capsized the following year with tremendous loss of life. ... 1870 was a common year starting on Saturday (see link for calendar). ...

If a ship floods then the centre of buoyancy will move upwards reducing the height of the metacentre, and if it is flooding asymmetrically moving it to the side which is flooding. Metacentric height is dominated by the wider part of the hull and is normally not greatly affected if the ends flood.

The simplification that the centre of gravity does not shift as a ship heels is affected by the free surface effect. This effect simply applies the same shift in centre of gravity of a tilted liquid filled tank or space as the metacentre calculations apply to the empty buoyant volume of the hull. As a tank tilts over, the surface of the liquid remains level, and there is a net shift of fluid volume away from centreline. This is usually of minor significance in most ship fuel tanks or ballast tanks, moderate significance in tanker cargo tanks, and major significance in flooded or partially flooded compartments of damaged ships.

There is also a similar consideration in the movement of the metacentre forward and aft as a ship pitches. Metacentres are usually separately calculated for transverse (side to side) rolling motion and for lengthwise longitudinal pitching motion. These are known as GM(t) and GM(l), or sometimes GMt and GMl. Technically, there are different metacentric heights for any combination of pitch and roll motion, depending on the moment of inertia of the waterplane area of the ship around the axis of rotation under consideration, but they are normally only calculated and stated as specific values for the limiting pure pitch and roll motions.

The metacentric height is normally estimated during the design of a ship but can be determined precisely by inclining experiments once it has been built.

See also

Naval architecture The State of Maine, 1892, by Antonio Jacobsen Naval architects design barges, boats, and ships for their clients to be for use in commercial, pleasure, military, or or other applications. ...