Systems and methods to determine workpiece characteristics

What is claimed is: 1. A non-transitory machine readable storage device comprising machine readable instructions which, when executed, cause a controller of an induction heating system to: receive a first temperature measurement signal from a first temperature sensor located at a geometric center of a heating profile and a first temperature measurement signal from a second temperature sensor, the first temperature measurement signal of the first temperature sensor corresponding to a first temperature of a metallic workpiece at a first location at the geometric center of the heating profile, the first temperature measurement signal of the second temperature sensor corresponding to a first temperature of the metallic workpiece at a second location of the heating profile that is different than the first location at the geometric center; turn on a power source to activate a heater to heat the metallic workpiece while the first or second temperature sensor maintains its location on the metallic workpiece following activation of the heater; receive a second temperature measurement signal from the first temperature sensor and a second temperature signal from the second temperature sensor in response to heating the metallic workpiece, the second temperature measurement signal of the first temperature sensor corresponding to a second temperature of the metallic workpiece at the first location of the heating profile, the second temperature measurement signal of the second temperature sensor corresponding to a second temperature of the metallic workpiece at the second location of the heating profile; assign a first weight to measurements from the first temperature sensor and a second weight less than the first weight to the second temperature sensor; calculate a change in pre- and post-activation temperature of the metallic workpiece based on the first and second temperatures from the first and second temperature sensors in accordance with their respective weights; determine a physical characteristic of the metallic workpiece based on the change in temperature; set a target heating value corresponding to the physical characteristic; and adjust power transmitted to the heater to a level of power associated with the target heating value. 2. The non-transitory machine readable storage device as defined in claim 1 , wherein the instructions, when executed, cause the controller to: access a memory device that includes a list of values that associates temperature change values with corresponding physical characteristics of the metallic workpiece; identify a temperature change value corresponding to the calculated change in temperature; and identify the physical characteristic by looking up the change in temperature in the memory device. 3. The non-transitory machine readable storage device as defined in claim 2 , wherein the instructions, when executed, cause the controller to further identify the physical characteristic as a thermal mass of the metallic workpiece based on the change in temperature. 4. The non-transitory machine readable storage device as defined in claim 2 , wherein the at least one temperature sensor comprises two or more thermocouples, the change in temperature of the metallic workpiece being based on temperature measurements from the two or more thermocouples. 5. A method to determine a physical characteristic of a metallic workpiece, comprising: receiving, at a controller of a power source, a first temperature measurement signal from a first temperature sensor in direct contact with the metallic workpiece, the first temperature measurement signal of the first temperature sensor corresponding to a first temperature of the metallic workpiece at a first location at a geometric center of a heating profile; receiving, at the controller, a first temperature measurement signal from a second temperature sensor in direct contact with the metallic workpiece, the first temperature measurement signal of the second temperature sensor corresponding to a first temperature of the metallic workpiece at a second location of the heating profile different than the first location at the geometric center; turning on, by the controller, a power source to activate a heater to heat the metallic workpiece; receiving, at the controller, a second temperature measurement signal from the first temperature sensor in response to heating the metallic workpiece, the second temperature measurement signal of the first temperature sensor corresponding to a second temperature of the metallic workpiece at the first location of the heating profile; receiving, at the controller, a second temperature measurement signal from the second temperature sensor in response to heating the metallic workpiece, the second temperature measurement signal of the second temperature sensor corresponding to a second temperature of the metallic workpiece at the second location of the heating profile; assigning, by the controller, a first weight to the first and second measurements from the first temperature sensor and a second weight less than the first weight to the first and second measurements from the second temperature sensor; calculating, by the controller, a change in temperature of the metallic workpiece based on the first and second temperature measurements from the first and second temperature sensors and the weights; determining, by the controller, a physical characteristic of the metallic workpiece based on the change in temperature; setting a target heating value corresponding to the physical characteristic; and adjusting power transmitted to the heater to a level of power associated with the target heating value. 6. The method to determine a physical characteristic of a metallic workpiece as defined in claim 5 , further comprising: accessing a memory device that includes a list of values that associates temperature change values with corresponding physical characteristics of the metallic workpiece; identifying a temperature change value corresponding to the calculated change in temperature; and identifying the physical characteristic by looking up the change in temperature in the memory device. 7. The method to determine a physical characteristic of a metallic workpiece as defined in claim 5 , wherein the heater comprises an induction heating blanket wrapped around the metallic workpiece. 8. A welding heating system, comprising: a power source configured to provide power to a welding heater to heat a metallic workpiece via the heater; and a controller configured to: receive a first temperature measurement signal from a first temperature sensor located at a geometric center of a heating profile and a first temperature measurement signal from a second temperature sensor, the first temperature measurement signal of the first temperature sensor corresponding to a first temperature of the metallic workpiece at a first location at the geometric center of the heating profile, the first temperature measurement signal of the second temperature sensor corresponding to a first temperature of the metallic workpiece at a second location of the heating profile that is different than the first location at the geometric center; turn on a power source to activate a heater to heat the metallic workpiece while the first and second temperature sensor maintains its location on the metallic workpiece following activation of the heater, wherein at least one of the first temperature sensor or the second temperature sensor comprises a thermocouple or a thermistor in thermal contact with the metallic workpiece; receive a second temperature measurement signal from the first temperature sensor and a second temperature signal from the second temperature sensor in response to heating the metallic workp