Propeller blade with lightweight insert

The invention claimed is: 1. A propeller blade comprising: a foam core; a structural layer that surrounds at least a portion of the foam core and includes a face side and a camber side; an insert disposed in the foam core in operable contact with the face side and the camber side of the structural layer; a root disposed within the structural layer at an end of the propeller blade, wherein a void exists between an end of the root and an end of the foam core. 2. The propeller blade of claim 1 , wherein the insert includes a face component and a camber component connected by a connecting member. 3. The propeller blade of claim 2 , wherein the insert further includes another connecting member that connects the face component and the camber component and is separate from the connecting member. 4. The propeller blade of claim 2 , wherein the connecting member is located at ends of one or both of the face component and the camber component. 5. The propeller blade of claim 2 , wherein the connecting member is located at a location that is not at an end of one or both of the face component and the camber component. 6. The propeller blade of claim 2 , wherein the connecting member is substantially perpendicular to the one or both of the face component and the camber component. 7. The propeller blade of claim 1 , wherein the end of the foam core is closer than an end of the insert to the end of the root. 8. The propeller blade of claim 1 , wherein the foam core is formed of one or more of: polyurethane (PU), polyisocyanurate, and polymethacrylimide (PMI). 9. The propeller blade of claim 1 , wherein the structural layer is formed of a resin-impregnated fiber material. 10. The propeller blade of claim 1 , wherein the insert is formed of one of: fiberglass, carbon, or a combination thereof. 11. The propeller blade of claim 1 , wherein the insert is formed of a composite material. 12. A method of forming a propeller blade comprising: providing a mold; disposing an insert in the mold; forming a foam core; forming a structural layer that surround the foam core and includes a face side and a camber side such that the face side and the camber side are in operable contact with the insert; coupling a root to the foam core; wherein forming a structural layer includes disposing the structural layer over at least a portion of the root; and removing a portion of the foam core between an end of the root and an end of the insert after the structural layer has been formed. 13. The method of claim 12 , wherein the foam core is formed after the insert has been disposed in the mold. 14. The method of claim 13 , wherein forming a foam core includes injecting foam into the mold. 15. The method of claim 12 , wherein forming the foam core includes: machining the foam core at a location outside of the mold; and disposing the foam core in the mold.