Force element arrangement and method

The invention claimed is: 1. A riser joint for use in connection with a riser, the joint comprising: first and second ends; a flexible connection between the first and second ends which is configured to allow the first end to be laterally displaced relative to the second end; and force means connected to both the first and second ends for generating a force on one of the ends when that end is moved out of a neutral position; wherein the force is applied in the same direction as the direction of movement of the one end out of the neutral position. 2. The riser joint according to claim 1 , further comprising: a first anchoring point located adjacent to the first end; and a second anchoring point located adjacent to the second end; both anchoring points being laterally spaced from a joint axis in a neutral position of the joint; wherein the force means are configured to apply a force between the anchoring points to laterally deflect the one end of the joint away from the joint axis. 3. The riser joint according to claim 1 , further comprising a first shoulder connected to the first end and a second shoulder connected to the second end, wherein the force means are connected to the two shoulders. 4. The riser joint according to claim 3 , wherein the force means are connected to at least one of the shoulders with a hinged connection. 5. The riser joint according to claim 3 , wherein at least one of the shoulders is adjustably connected to its corresponding end. 6. The riser joint according to claim 1 , wherein the force means comprises one selected from the group consisting of a mechanical system, a hydraulic system, a magnetic system and an electric system. 7. The riser joint according to claim 1 , wherein the force means comprises a cylinder arrangement which includes at least three pistons connected to one of the ends and at least three cylinders connected to the other of the ends, and fluid lines connected between the cylinder arrangement, a reservoir of fluid and a control unit. 8. The riser joint according to claim 1 , wherein the riser extends between a floating installation and an installation fixed relative the seabed. 9. The riser joint according to claim 8 , wherein the riser is connectable to a tension system arranged on the floating installation. 10. A method for reducing bending moments in a riser at a connection between the riser and a subsea installation, the riser being connected to a tension system at a floating vessel, the method comprising providing a riser joint between two parts of the riser which riser joint in a neutral position provides mainly equal forces around the circumference of the riser and which with a deviation from the neutral position will induce a force on the two parts which will act against the return of the two parts to the neutral position. 11. The method according to claim 10 , further comprising providing the riser joint with a cylinder arrangement and regulating a supply of fluid to the cylinder arrangement to regulate the force acting on the two parts of the riser. 12. A riser joint for connecting a first part of a riser to a second part of the riser, the riser joint comprising: a first end which is connected to the first part; a second end which is connected to the second part; a flexible connection between the first and second ends which is configured to allow the first end to move laterally relative to the second end; and a force element which is connected between the first and second ends and which, when the first end moves relative to the second end, generates a force on the first end which acts in the same direction as the direction of movement of the first end relative to the second end. 13. The riser joint according to claim 12 , wherein the force element comprises a plurality of hydraulic cylinders, each of which includes a piston that is connected to one of the first and second ends and a cylinder that is connected to the other of the first and second ends.