Airflow sensor with thermal conductivity and diffusivity sensing

What is claimed is: 1. A sensor for sensing a thermal property of a fluid, the sensor comprising: an upstream resistive element having a first resistance that changes with temperature; a downstream resistive element having a second resistance that changes with temperature, wherein the downstream resistive element is situated downstream of the upstream resistive element in the flow direction of the fluid; and at least one tail resistor configured to determine one or more thermal properties of the fluid, wherein: the upstream resistive element and the downstream resistive element are operatively connected in a bridge circuit, the at least one tail resistor is stable with temperature, and the at least one tail resistor is electrically coupled to at least one of the upstream resistive element or the downstream resistive element. 2. The sensor of claim 1 , further comprising a heating element configured to be substantially in direct thermal coupling with the fluid flowing through a flow channel, and wherein the at least one tail resistor is electrically coupled to at least one of the upstream resistive element, the downstream resistive element, or the heating element. 3. The sensor of claim 2 , wherein the at least one tail resistor is configured to measure the thermal conductivity of the fluid. 4. The sensor of claim 3 , wherein the at least one tail resistor is electrically coupled to the heating element, and the measured voltage difference between the heating element and the tail resistor indicates the power dissipated by the fluid flowing over the heating element, and therefore the thermal conductivity of the fluid. 5. The sensor of claim 1 , wherein the at least one tail resistor is configured to measure the thermal diffusivity of the fluid. 6. The sensor of claim 5 , wherein the at least one tail resistor is electrically coupled to the upstream resistive element and the downstream resistive element, and wherein the measured voltage difference at the tail resistor is monitored with respect to time to determine how quickly the fluid is heated by part of the bridge circuit, and wherein that measurement is related to thermal diffusivity of the fluid. 7. The sensor of claim 5 , wherein the power to the bridge circuit is pulsed, and wherein the time is measured between activating the power and when one of the upstream or downstream resistive elements indicates a temperature change. 8. A method for determining one or more thermal property of a fluid, the method comprising: assembling a bridge circuit comprising an upstream resistive element, a downstream resistive element, and at least one tail resistor electrically coupled to at least one of the upstream resistive element or the downstream resistive element; supplying power to the bridge circuit; feeding the fluid over the bridge circuit; measuring the voltage change at the tail resistor; and determining at least one thermal property of the fluid based on the measured voltage change. 9. The method of claim 8 , wherein the at least one tail resistor is stable with temperature. 10. The method of claim 8 , further comprising assembling the bridge circuit comprising a heating element. 11. The method of claim 10 , wherein the at least one tail resistor is electrically coupled to the heating element, and wherein measuring the voltage change at the tail resistor comprises measuring the voltage difference between the tail resistor and the heating element. 12. The method of claim 10 , wherein determining the at least one thermal property of the fluid comprises determining the thermal conductivity of the fluid. 13. The method of claim 8 , wherein measuring the voltage change at the tail resistor comprises measuring, relative to time, the voltage difference between the tail resistor and the upstream and downstream resistive elements. 14. The method of claim 13 , wherein determining the at least one thermal property of the fluid comprises determining the thermal diffusivity of the fluid. 15. The method of claim 8 , further comprising: determining a fluid flow rate through a sensor; and adjusting the determined fluid flow rate based on the determined thermal property of the fluid. 16. A flow sensor for sensing a fluid flow rate through a flow channel, the flow sensor comprising: a heating element configured to be substantially in direct thermal coupling with fluid flowing through the flow channel; an upstream resistive element having a first resistance that changes with temperature; a downstream resistive element having a second resistance that changes with temperature, wherein the downstream resistive element is situated downstream of the upstream resistive element in the flow channel; and at least one tail resistor configured to indicate one or more thermal properties of the fluid flowing through the flow channel, wherein: the upstream resistive element and the downstream resistive element are operatively connected in a bridge circuit; the at least one tail resistor is stable with temperature; and the at least one tail resistor is electrically coupled to at least one of the upstream resistive element, the downstream resistive element, or the heating element. 17. The sensor of claim 16 , wherein the at least one tail resistor is configured to measure the thermal conductivity of the fluid. 18. The sensor of claim 16 , wherein the at least one tail resistor is electrically coupled to the heating element, and the measured voltage difference between the heating element and the tail resistor indicates the power dissipated by the fluid flowing over the heating element, and therefore the thermal conductivity of the fluid. 19. The sensor of claim 16 , wherein the at least one tail resistor is configured to measure the thermal diffusivity of the fluid. 20. The sensor of claim 16 , wherein the power to the bridge circuit is pulsed, and wherein the time is measured between activating the power and when one of the upstream or downstream resistive elements indicates a temperature change.