Mixing assemblies including magnetic impellers

What is claimed is: 1. A magnetic impeller comprising: a rotatable element comprising a magnetic element and a post; an overmolded ring disposed about a perimeter of the rotatable element and sealing two base portions of the rotatable element together while encapsulating the magnetic element within the rotatable element; a plurality of blades, wherein the plurality of blades comprise first and second blades capable of rotation with the rotatable element to maintain their relative positional relationship, wherein the first blade is disposed above the second blade; and a plug adapted to retain the plurality of blades on the post, wherein the magnetic impeller is adapted to mix a fluid retained within a vessel, wherein the magnetic impeller is decoupled from the vessel. 2. The magnetic impeller of claim 1 , wherein at least one of the plurality of blades has a non-rectilinear cross-sectional profile adapted to generate lift in the fluid. 3. The magnetic impeller of claim 1 , wherein the magnetic element comprises a neodymium magnet. 4. A mixing assembly comprising: a vessel; and the magnetic impeller of claim 1 disposed within the vessel. 5. A magnetic impeller comprising: a magnetic element; a rotatable element comprising a post and enclosing the magnetic element, wherein the rotatable element has a proximal end, an opposite distal end, and a contact flange disposed on a surface of the distal end, the contact flange comprising at least two ribbed portions an overmolded ring disposed about a perimeter of the rotatable element and sealing two base portions of the rotatable element together while encapsulating the magnetic element within the rotatable element; and a plurality of blades comprising first and second blades capable of rotation with the rotatable element to maintain their relative positional relationship, wherein the first blade is disposed above the second blade, and a plug adapted to retain the plurality of blades on the post, wherein the magnetic impeller is adapted to mix a fluid retained within a vessel. 6. The magnetic impeller of claim 5 , wherein the at least two ribbed portions each lie along generally straight lines. 7. The magnetic impeller of claim 6 , wherein the contact flange has a maximum thickness at a central portion of the distal end, wherein the contact flange extends along the length of the rotatable element, and wherein the contact flange has an arcuate shape. 8. The magnetic impeller of claim 6 , wherein a first of the at least two ribbed portions intersects a second of the at least two ribbed portions at a 90° angle. 9. The magnetic impeller of claim 5 , wherein the contact flange is unitary with the distal end of the rotatable element. 10. The magnetic impeller of claim 5 , wherein each of the plurality of blades has a non-rectilinear cross-sectional profile adapted to generate lift in the fluid. 11. The magnetic impeller of claim 5 , wherein the magnetic element comprises a neodymium magnet. 12. A mixing assembly comprising: a modular cart system comprising a first cart and a second cart, a magnetic impeller disposed within the vessel, the magnetic impeller comprising: a rotatable element; an overmolded ring disposed about a perimeter of the rotatable element and sealing two base portions of the rotatable element together while encapsulating a magnetic element within the rotatable element, wherein the overmolded ring further comprises a post; a plurality of blades comprising first and second blades capable of rotation with the rotatable element to maintain their relative positional relationship, wherein the first blade is disposed above the second blade; and a plug adapted to retain the plurality of blades on the post, wherein the magnetic impeller is decoupled from the vessel, and the second cart adapted to receive a magnetic drive selectively adapted to drive the magnetic impeller, wherein the first cart is adapted to couple with the second cart so that the magnetic drive is in a proper location for driving the magnetic impeller. 13. The mixing assembly of claim 12 , wherein the first cart comprises a first complimentary feature and the second cart comprises a second complimentary feature adapted to align with the first complimentary feature. 14. The mixing assembly of claim 12 , wherein the first and second carts are adapted to move independent of one another. 15. The mixing assembly of claim 13 , further comprising a locking mechanism adapted to lock the second cart within the first cart. 16. The mixing assembly of claim 12 , wherein the magnetic impeller comprises a rotatable element and the plurality of blades are coupled to the rotatable element. 17. The mixing assembly of claim 16 , wherein each of the plurality of blades has a non-rectilinear cross-sectional profile adapted to generate lift in a fluid. 18. The mixing assembly of claim 16 , wherein the rotatable element comprises a magnetic element, and the magnetic element comprises a neodymium magnet. 19. The mixing assembly of claim 12 , comprising a plurality of first carts, each adapted to couple with the second cart so that the magnetic drive is in the proper location for driving the magnetic impeller of the first cart coupled to the second cart. 20. The mixing assembly of claim 12 , wherein the first cart comprises a stand adapted to accommodate a plurality of vessels having different sizes.