Object separating

What is claimed is: 1. An object separator for separating an object in a fluid, the object separator comprising: a substrate; a fluid channel supported by the substrate; a pair of electrodes along the fluid channel to form a dielectrophoretic force to interact with an object entrained in a fluid; and an inertial pump supported by the substrate and positioned within the fluid channel to move the fluid along the fluid channel. 2. The object separator of claim 1 further comprising a fluid ejector to eject fluid from the channel. 3. The object separator of claim 1 further comprising a second pair of electrodes along the fluid channel to form a second dielectrophoretic force, different than the first dielectrophoretic force, to interact with a second object, different than the first object, entrained in the fluid. 4. The object separator of claim 1 further comprising: a recirculation passage supported by the substrate, the recirculation passage having a first portion connected to the channel on a first side of the pair of electrodes and a second portion connected to the channel on a second side of the pair of electrodes; and a second inertial pump supported by the substrate to move the fluid along the recirculation passage. 5. The object separator of claim 4 , wherein the second inertial pump comprises a thermal resistor. 6. The object separator of claim 1 , wherein the inertial pump comprises a thermal resistor. 7. The object separator of claim 4 further comprising a holding reservoir connected to the recirculation passage. 8. The object separator of claim 1 further comprising an object sensor supported by the substrate. 9. The object separator of claim 8 further comprising a controller to adjust an operational parameter of at least one of the inertial pump and the pair of electrodes based upon signals from the object sensor. 10. A method for separating an object in a fluid, the method comprising: moving fluid through a channel of a substrate with an inertial pump supported by the substrate and positioned with the channel; and applying a dielectrophoretic force to an object entrained in the fluid to separate the object from other objects in the fluid. 11. The method of claim 10 further comprising ejecting fluid from the channel through a nozzle with a fluid actuator. 12. The method of claim 10 , wherein the dielectrophoretic force is applied with a pair of electrodes. 13. The method of claim 11 , further comprising recirculating fluid through a recirculation passage from a first side of the pair of electrodes to a second side of the pair of electrodes. 14. The method of claim 10 , further comprising heating the fluid using a thermal resistor associated with the inertial pump. 15. The method of claim 10 , further comprising moving the fluid along a recirculation passage supported by the substrate. 16. The method of claim 15 , wherein moving the fluid along the recirculation passage is by a second inertial pump. 17. The method of claim 10 , further comprising adjusting an operational parameter using a controller. 18. The method of claim 17 , wherein adjusting the operational parameter includes adjusting the inertial pump to move the fluid along the fluid channel, adjusting electrodes positioned along the fluid channel to control the dielectrophoretic force, or both. 19. The method of claim 10 , further comprising sensing the object in the fluid using an object sensor. 20. The method of claim 19 , further comprising adjusting an operational parameter of the inertial pump, adjusting electrodes positioned along the fluid channel to control the dielectrophoretic force, or both based on sensing of the objects in the fluid.