Burner assembly having a baffle

What is claimed is: 1. A burner assembly comprising: a burner box defining an enclosure having a burner plate opening; a mixing tube in fluid communication with the burner box through a mixing tube opening extending through the burner box; and a baffle creating an enclosure at least partially separating the mixing tube opening from the burner plate opening, wherein the baffle separates an incoming air-fuel mixture into at least two opposing flow paths that flow around outer ends of the baffle to the burner plate opening. 2. The burner assembly of claim 1 , wherein the burner box includes a pair of side walls, a pair of end walls, and a back wall facing the burner plate opening and the mixing tube opening extends through one of the pair of side walls, the pair of end walls, and the back wall. 3. The burner assembly of claim 2 , wherein the baffle at least partially defines a premix flow path with at least one of the pair of side walls and the pair of end walls. 4. The burner assembly of claim 3 , wherein the baffle at least partially defines the premix flow path with the back wall. 5. The burner assembly of claim 2 , wherein the baffle includes a portion at least partially following a profile of the mixing tube opening in the burner box. 6. The burner assembly of claim 5 , wherein the portion at least partially following a profile of the mixing tube opening is a curved portion. 7. A burner assembly comprising: a burner box defining an enclosure having a burner plate opening, wherein the burner box includes a pair of side walls, a pair of end walls, and a back wall facing the burner plate opening; a mixing tube in fluid communication with the burner box through a mixing tube opening extending through the burner box, and wherein the mixing tube opening extends through one of the pair of side walls, the pair of end walls, and the back wall; and a baffle creating an enclosure at least partially separating the mixing tube opening from the burner plate opening, wherein the baffle includes a portion at least partially following a profile of the mixing tube opening in the burner box, and wherein the portion at least partially following a profile of the mixing tube opening is a curved portion, and wherein the baffle includes at least one wing extending from the curved portion. 8. The burner assembly of claim 7 , wherein at least one tab extends transverse from the at least one wing. 9. The burner assembly of claim 8 , wherein at least one flange extends from opposite sides of the at least one wing and the at least one tab. 10. A burner assembly comprising: a burner box defining an enclosure having a burner plate opening, wherein the burner box includes a pair of side walls, a pair of end walls, and a back wall facing the burner plate opening; a mixing tube in fluid communication with the burner box through a mixing tube opening extending through the burner box, wherein the mixing tube opening extends through one of the pair of side walls, the pair of end walls, and the back wall; and a baffle creating an enclosure at least partially separating the mixing tube opening from the burner plate opening, wherein the baffle includes a portion at least partially following a profile of the mixing tube opening in the burner box, and wherein the baffle engages each of one of the pair of end walls or side walls and is spaced from each of the other of the pair of end walls or the pair of side walls. 11. The burner assembly of claim 1 , including a burner plate located in the burner plate opening. 12. A burner assembly comprising: a burner box defining an enclosure having a burner plate opening; a mixing tube in fluid communication with the burner box through a mixing tube opening extending through the burner box; a burner plate located in the burner plate opening, wherein the burner plate includes a pair of burner plate side walls, a pair of burner plate end walls, and a burner plate back wall that all extend into the burner box; and a baffle creating an enclosure at least partially separating the mixing tube opening from the burner plate opening. 13. The burner assembly of claim 12 , wherein the pair of burner plate side walls and the pair of burner plate end walls include perforations and the burner plate back wall includes a plurality of protruding perforated disks. 14. A furnace comprising: a heat exchanger; a burner assembly in thermal communication including: a burner box defining an enclosure having a burner plate opening; a mixing tube in fluid communication with the burner box through a mixing tube opening extending through the burner box; and a baffle creating an enclosure at least partially separating the mixing tube opening from the burner plate opening, wherein the baffle separates an incoming air-fuel mixture into at least two opposing flow paths that flow around outer ends of the baffle to the burner plate opening; and a blower configured to direct air across the heat exchanger. 15. The furnace of claim 14 , wherein the burner box includes a pair of side walls, a pair of end walls, and a back wall facing the burner plate opening and the mixing tube opening extends through one of the pair of side walls, the pair of end walls, and the back wall. 16. The furnace of claim 15 , wherein the baffle at least partially defines a premix flow path with at least one of the pair of side walls and the pair of end walls. 17. The furnace of claim 16 , wherein the baffle at least partially defines the premix flow path with the back wall. 18. A furnace comprising: a heat exchanger; a burner assembly in thermal communication including: a burner box defining an enclosure having a burner plate opening, wherein the burner box includes a pair of side walls, a pair of end walls, and a back wall facing the burner plate opening; a mixing tube in fluid communication with the burner box through a mixing tube opening extending through the burner box, wherein the mixing tube opening extends through one of the pair of side walls, the pair of end walls, and the back wall; and a baffle creating an enclosure at least partially separating the mixing tube opening from the burner plate opening, wherein the baffle engages each of one of the pair of end walls or side walls and is spaced from each of the other of the pair of end walls or the pair of side walls; and a blower configured to direct air across the heat exchanger. 19. The furnace of claim 14 , including a burner plate located in the burner plate opening and the burner plate includes a pair of burner plate side walls, a pair of burner plate end walls, and a burner plate back wall that all extend into the burner box. 20. A method of reducing noise in a burner assembly comprising the steps of: positioning an air fuel mixing tube relative to a mixing tube opening in a burner box to create at least a portion of a Helmholtz Resonator; locating a baffle within the burner box to create an enclosure at least partially separating the mixing tube opening from a burner plate opening in the burner box; separating an incoming air-fuel mixture into at least two opposing flow paths that flow around the baffle to the burner plate opening; and varying a position of the baffle within the burner box to vary a length of an enclosure at least partially defined by the burner box and a back wall of the burner box to extend the Helmholtz Resonator and vary a resonant frequency. 21. The method of claim 20 , including forming the mixing tube opening in an outer wall of the bur