Eductor for a gas cooktop appliance

What is claimed is: 1. An eductor for a gas burner, comprising: a mixing body defining a mixing chamber, the mixing body having a fuel line coupling, the mixing chamber configured for receiving a flow of forced air and a flow of fuel, the fuel line coupling configured for supporting a fuel line through which the flow of fuel enters the mixing body, a forced air nozzle positioned on the mixing body at the mixing chamber and configured for directing the flow of forced air into the mixing chamber, the forced air nozzle having a converging cross-section for increasing a velocity of the flow of forced air into the mixing chamber, an outlet nozzle positioned on the mixing body at the mixing chamber and configured for directing a mixed flow of air and fuel out of the mixing chamber, the outlet nozzle having a converging cross-section for increasing a velocity of the mixed flow of air and fuel out of the mixing chamber; a fuel metering orifice mounted to the mixing body downstream of the fuel line coupling and upstream of the mixing chamber relative to the flow of fuel, the fuel metering orifice spaced from the fuel line coupling on the mixing body, the fuel metering orifice configured for directing the flow of fuel into the mixing chamber of the mixing body, wherein the fuel metering orifice is separable from the mixing body when the fuel line is coupled to the mixing body at the fuel line coupling, wherein the fuel metering orifice is formed from a separate piece of material from the mixing body, and the fuel metering orifice defines an inlet passage and an outlet passage within the separate piece of material. 2. The eductor of claim 1 , wherein the inlet and outlet passages extend within the fuel metering orifice such that the inlet passage is oriented perpendicular to the outlet passage. 3. The eductor of claim 2 , wherein the inlet passage is contiguous with an interior of the fuel line when the fuel line is coupled to the mixing body at the fuel line coupling. 4. The eductor of claim 2 , wherein the outlet passage is positioned coaxial with a threaded outer surface of the fuel metering orifice at which the fuel metering orifice is threaded to the mixing body. 5. The eductor of claim 1 , wherein the flow of fuel within the inlet passage is perpendicular to the flow of fuel within the outlet passage. 6. The eductor of claim 5 , wherein the inlet passage is contiguous with an interior of the fuel line when the fuel line is coupled to the mixing body at the fuel line coupling. 7. The eductor of claim 5 , wherein the outlet passage is positioned coaxial with a threaded outer surface of the fuel metering orifice at which the fuel metering orifice is threaded to the mixing body. 8. An eductor for a gas burner, comprising: a mixing body defining a mixing chamber, the mixing body having a forced air coupling and a fuel line coupling, the mixing chamber configured for receiving a flow of forced air from the forced air coupling and a flow of fuel from the fuel line coupling, the fuel line coupling configured for supporting a fuel line through which the flow of fuel enters the mixing body, a forced air nozzle positioned on the mixing body at the mixing chamber and configured for directing the flow of forced air into the mixing chamber, the forced air nozzle having a converging cross-section for increasing a velocity of the flow of forced air into the mixing chamber, an outlet nozzle positioned on the mixing body at the mixing chamber and configured for directing a mixed flow of air and fuel out of the mixing chamber, the outlet nozzle having a converging cross-section for increasing a velocity of the mixed flow of air and fuel out of the mixing chamber; a fuel metering orifice mounted to the mixing body downstream of the fuel line coupling and upstream of the mixing chamber relative to the flow of fuel, the fuel metering orifice spaced from the fuel line coupling on the mixing body, the fuel metering orifice configured for directing the flow of fuel into the mixing chamber of the mixing body, wherein the fuel metering orifice is configured such that the fuel metering orifice and the fuel line coupling are separately removable from the mixing body when the fuel line is coupled to the mixing body at the fuel line coupling, wherein the fuel metering orifice is formed from a separate piece of material from the mixing body, and the fuel metering orifice defines an inlet passage and an outlet passage within the separate piece of material. 9. The eductor of claim 8 , wherein the inlet and outlet passages extend within the fuel metering orifice such that the inlet passage is oriented perpendicular to the outlet passage. 10. The eductor of claim 9 , wherein the inlet passage is contiguous with an interior of with the fuel line when the fuel line is coupled to the mixing body at the fuel line coupling. 11. The eductor of claim 9 , wherein the outlet passage is positioned coaxial with a threaded outer surface of the fuel metering orifice at which the fuel metering orifice is threaded to the mixing body. 12. The eductor of claim 8 , wherein the flow of fuel within the inlet passage is perpendicular to the flow of fuel within the outlet passage. 13. A cooktop appliance, comprising: a top panel that defines an opening; a first gas burner positioned on the top panel at the opening of the top panel; a second gas burner comprising a burner body, a horizontal mixing tube and an eductor, the eductor comprising a mixing body defining a mixing chamber and a fuel line coupling, the mixing chamber configured for receiving a flow of forced air and a flow of fuel, the fuel line coupling configured for supporting a fuel line through which the flow of fuel enters the mixing body, a forced air nozzle positioned on the mixing body at the mixing chamber and configured for directing the flow of forced air into the mixing chamber, the forced air nozzle having a converging cross-section for increasing a velocity of the flow of forced air into the mixing chamber, an outlet nozzle positioned on the mixing body at the mixing chamber and configured for directing a mixed flow of air and fuel out of the mixing chamber, the outlet nozzle having a converging cross-section for increasing a velocity of the mixed flow of air and fuel out of the mixing chamber; a fuel metering orifice mounted to the mixing body downstream of the fuel line coupling and upstream of the mixing chamber relative to the flow of fuel, the fuel metering orifice spaced from the fuel line coupling on the mixing body, the fuel metering orifice configured for directing the flow of fuel into the mixing chamber of the mixing body, wherein the fuel metering orifice is separable from the mixing body when the fuel line is coupled to the mixing body at the fuel line coupling, wherein the fuel metering orifice is formed from a separate piece of material from the mixing body, and the fuel metering orifice defines an inlet passage and an outlet passage within the separate piece of material. 14. The cooktop appliance of claim 13 , wherein the inlet and outlet passages extend within the fuel metering orifice such that the inlet passage is oriented perpendicular to the outlet passage. 15. The cooktop appliance of claim 14 , wherein the inlet passage is contiguous with an interior of the fuel line when the fuel line is coupled to the mixing body at the fuel line coupling. 16. The cooktop appliance of claim 14 , wherein the outlet passage is positioned coaxial with a threaded outer surface of the fuel metering orifice at which the fuel metering orifice is threaded to the mixing body.