Flexible header with sectional height adjustment

The invention claimed is: 1. A header for harvesting a crop, the header comprising: a flexible cutterbar assembly extending lengthwise in a lateral direction relative to a normal direction of travel of the header; a plurality of laterally spaced apart support arms configured to support the flexible cutter bar assembly, each support arm comprising: a first end attached to the flexible cutterbar assembly; and a second end pivotal about a laterally extending axis so that the flexible cutterbar assembly is configured to flex in response to changes in terrain as the header is advanced; a plurality of load sensors, wherein each load sensor is located at the first end of one of the support arms and wherein each load sensor is configured to sense a force of the ground acting on the first end and generate an electronic load signal; a plurality of hydraulic cylinders, wherein each hydraulic cylinder is located at the second end of one of the support arms and wherein each hydraulic cylinder is actuatable to adjustably raise and lower the first end of the support arm; and a controller configured to: receive the electronic load signals generated by the load sensors; determine whether the load signals indicate that actuating one or more of the hydraulic cylinders is warranted due to a changing force of the ground acting on the first ends of one or more of the support arms; and if so, send a control signal to change a hydraulic pressure in the one or more hydraulic cylinders to raise or lower the first ends of the one or more support arms to offset the changing force. 2. The header of claim 1 , further comprising a plurality of skid plates, wherein each skid plate is associated with the front end of one of the support arms, and wherein each load sensor is associated with one of the skid plates. 3. The header of claim 1 , further comprising a hydraulic assembly comprising: a pressure line configured to contain a hydraulic fluid to increase the hydraulic pressure; a return line configured to contain the hydraulic fluid to decrease the hydraulic pressure; a plurality of valves coupled with the pressure line and return lines, wherein each valve is associated with one of the hydraulic cylinders, and wherein each valve is configured to open to allow the hydraulic fluid to move into or out of the hydraulic cylinder; and a plurality of valve lines, wherein each valve line is coupled with one of the hydraulic cylinders and one of the valves, and wherein each valve line is configured to carry the hydraulic fluid into or out of the hydraulic cylinder via the valve when the valve is open. 4. The header of claim 1 , wherein the controller is configured to determine whether the changing force exceeds a pre-determined changing force value. 5. The header of claim 4 , wherein the pre-determined changing force value is at least five percent. 6. The header of claim 4 , wherein the pre-determined changing force value is at least ten percent. 7. The header of claim 1 , wherein each of the support arms is coupled to one of the load sensors. 8. The header of claim 1 , wherein only some of the support arms are coupled to one of the load sensors. 9. The header of claim 1 , wherein each of the support arms is coupled to one of the hydraulic cylinders. 10. The header of claim 1 , wherein only some of the support arms are coupled to one of the hydraulic cylinders. 11. The header of claim 1 , wherein all of the hydraulic cylinders are actuatable by the controller. 12. The header of claim 1 , wherein only some of the hydraulic cylinders are actuatable by the controller. 13. The header of claim 1 , wherein the controller is configured to cause the hydraulic pressure in all of the hydraulic cylinders to be increased responsive to an electronic raise signal present for at least a pre-determined time period to raise the front ends of all of the support arms. 14. The header of claim 13 , wherein the pre-determined time period is no longer than five seconds. 15. The header of claim 13 , wherein the pre-determined time period is no longer than one second. 16. The header of claim 1 , wherein: all of the support arms are provided with one of the load sensors; all of the support arms are provided with one of the hydraulic cylinders; and all of the hydraulic cylinders are actuatable by the controller. 17. A header for harvesting a crop, the header comprising: a flexible cutterbar assembly extending lengthwise in a lateral direction relative to a normal direction of travel of the header, wherein the flexible cutterbar is configured to be raised in response to an electronic raise signal; a plurality of laterally spaced apart support arms configured to support the flexible cutter bar assembly, each support arm comprising: a first end attached to the flexible cutterbar assembly; and a second end pivotal about a laterally extending axis so that the flexible cutterbar assembly is configured to flex in response to changes in terrain as the header is advanced; a plurality of load sensors, wherein each load sensor is located at the first end of one of the support arms and wherein each load sensor is configured to sense a force of the ground acting on the first end and generate an electronic load signal, wherein each support arm is coupled to one of the load sensors; a plurality of hydraulic cylinders, wherein each hydraulic cylinder is located at the second end of one of the support arms and wherein each hydraulic cylinder is actuatable to adjustably raise and lower the first end of the support arm, wherein all of the support arms are coupled to one of the hydraulic cylinders; a controller configured to: receive the electronic load signals generated by the load sensors, determine whether the load signals indicate that actuating one or more of the hydraulic cylinders is warranted due to a changing force of the ground acting on the first ends of one or more of the support arms by determining whether the changing force exceeds a pre-determined changing force value, wherein the pre-determined changing force value is at least five percent; if so, send a control signal to change a hydraulic pressure in the one or more hydraulic cylinders to raise or lower the first ends of the one or more support arms to offset the changing force; and receive the electronic raise signal and cause the hydraulic pressure in all of the hydraulic cylinders to be increased responsive to an electronic raise signal present for at least a pre-determined time period of no longer than five seconds to raise the front ends of all of the support arms. 18. A header for harvesting a crop, the header comprising: a frame extending in a lateral direction relative to a normal operating direction of travel of the header; a plurality of support arms pivotally attached to the frame at a pivot axis; a flexible cutterbar assembly connected to the support arms at distal ends from the pivot axis; a plurality of load sensors, wherein each load sensor is located at the distal end of one of the support arms and wherein each load sensor is configured to sense a force of the ground acting on the distal end and generate an electronic load signal; a plurality of hydraulic cylinders, wherein each hydraulic cylinder is located at an end of one of the support arms and wherein each hydraulic cylinder is actuatable to rotate the support arm about the pivot axis to raise and lower the distal end of the support arm; and a controller configured to: receive the electronic load signals generated by the load sensors; and send a control signa