Articulating faucet

The invention claimed is: 1. A fluid delivery device comprising: a first conduit section; and a second conduit section rotatably coupled to the first conduit section by a magnetic joint; wherein the magnetic joint permits rotation of the first conduit section relative to the second conduit section and prevents axial movement of the first conduit section relative to the second conduit section during rotation, wherein the first conduit section has an angled interface with the second conduit section such that the fluid delivery device is configured to be selectively adjusted between a first configuration and a second configuration by selectively rotating the first conduit section, the second conduit section, or both, wherein in the first configuration the second conduit section is substantially parallel to a longitudinal axis of the first conduit section, and in the second configuration the second conduit section is not parallel to the longitudinal axis of the first conduit section. 2. The fluid delivery device of claim 1 , wherein the first conduit section and the second conduit section each have a length that defines a longitudinal axis, and wherein rotation of the second conduit section relative to the first conduit section results in changing a relative angular orientation of the longitudinal axes. 3. The fluid delivery device of claim 1 , further comprising a fluid conduit extending between the first conduit section and the second conduit section. 4. The fluid delivery device of claim 1 , wherein the fluid delivery device is a faucet, and wherein the first and second conduit sections collectively define a spout of the faucet. 5. The fluid delivery device of claim 1 , wherein the magnetic joint includes a first plurality of magnets and a second plurality of magnets, and wherein the magnetic joint further comprises: a first member including the first plurality of magnets spaced annularly apart from each other; and a second member including the second plurality of magnets spaced annularly apart from each other; wherein the first member is rotatably coupled to the second member; and wherein the first member is coupled to the first conduit section and the second member is coupled to the second conduit section. 6. The fluid delivery device of claim 5 , wherein the second conduit section is configured to magnetically bias away from the first conduit section when the second plurality of magnets substantially overlap the first plurality of magnets, and wherein the second conduit section is configured to magnetically bias toward the first conduit section when the second plurality of magnets substantially overlap the spaces between adjacent magnets of the first plurality of magnets. 7. The fluid delivery device of claim 6 , wherein the first plurality of magnets and the second plurality of magnets are each arranged to have the same polarity facing each other. 8. The fluid delivery device of claim 5 , wherein the first plurality of magnets and the second plurality of magnets are each arranged to have alternating polarities on a facing surface of the first and second members, respectively. 9. The fluid delivery device of claim 5 , wherein the first plurality of magnets and the second plurality of magnets are each spaced apart equidistant from each other on the first and second members, respectively. 10. The fluid delivery device of claim 5 , wherein the first member is spaced apart from the second member such that the first plurality of magnets does not physically contact the second plurality of magnets at the first and second configurations. 11. The fluid delivery device of claim 5 , wherein the first member further comprises a protrusion having a hollow cylindrical shape that defines a central passage, and wherein the protrusion includes a flange portion. 12. The fluid delivery device of claim 11 , wherein the protrusion rotatably couples the first member to the second member, and wherein the flange portion retains the second member to the first member in an axial direction. 13. A fluid delivery device comprising: a first conduit section configured to be coupled to a mounting surface; and a second conduit section rotatably coupled to the first conduit section by a magnetic joint; wherein the magnetic joint permits rotation of the first conduit section relative to the second conduit section and prevents axial movement of the first conduit section relative to the second conduit section during rotation, wherein the first conduit section and the second conduit section each have a length that defines a longitudinal axis, and wherein the first conduit section has an angled interface with the second conduit section such that rotation of the second conduit section relative to the first conduit section shifts the longitudinal axis of the second conduit section between substantially vertical and substantially horizontal. 14. The fluid delivery device of claim 13 , wherein rotation of the second conduit section relative to the first conduit section results in changing a relative angular orientation of the longitudinal axes. 15. The fluid delivery device of claim 13 , wherein the magnetic joint includes a first plurality of magnets spaced annularly apart from each other on an end surface of the first conduit section and a second plurality of magnets spaced annularly apart from each other on an end surface of the second conduit section that faces the end surface of the first conduit section. 16. The fluid delivery device of claim 15 , wherein the second conduit section is configured to magnetically bias away from the first conduit section when the second plurality of magnets substantially overlap the first plurality of magnets, and wherein the second conduit section is configured to magnetically bias toward the first conduit section when the second plurality of magnets substantially overlap the spaces between adjacent magnets of the first plurality of magnets. 17. The fluid delivery device of claim 16 , wherein the first plurality of magnets and the second plurality of magnets are each arranged to have the same polarity facing each other. 18. The fluid delivery device of claim 15 , wherein the first plurality of magnets and the second plurality of magnets are each arranged to have alternating polarities on the end surfaces of the first and second conduit sections, respectively. 19. A fluid delivery device configured to be coupled proximate a sink basin, the fluid delivery device comprising: a plurality of conduit sections, each conduit section rotatably coupled to the an adjacent conduit section by a magnetic joint; wherein the magnetic joint is configured to define a plurality of rotational positions between adjacent conduit sections; wherein the magnetic joint permits rotation of a conduit section relative to the an adjacent conduit section and prevents axial movement of the conduit section relative to the adjacent conduit section during rotation, wherein a free end of a conduit section of the plurality of conduit section defines an outlet end of the fluid delivery device is configured for delivery of a fluid to the sink basin, and wherein the fluid delivery device is configured to be selectively adjusted between a plurality of angular configurations by selectively rotating one or more of the conduit sections. 20. The fluid delivery device of claim 19 , wherein each conduit section has a length that defines a longitudinal axis, and wherein adjacent conduit sections have an angled interface such that rotation of a conduit se