Interventionless method of setting a casing to casing annular packer

What is claimed is: 1. An annular packer comprising: a solid mandrel having a first end, a second end, a central bore, and an exterior; a first sealing element connected to the exterior of the mandrel; a second sealing element connected to the exterior of the mandrel, wherein the second sealing element is expanded radially by axial movement of at least a portion of the second sealing element; a first piston movable from a first position to a second position within a first chamber on the exterior of the mandrel, the first piston and first chamber being positioned between the first sealing element and the second sealing element; and a first port that permits fluid flow into the first chamber, wherein the first sealing element is between the first port and the second sealing element; wherein via the first port, a pressure differential exterior of the mandrel moves the first piston from the first position to the second position and wherein the movement of the first piston to the second position axially moves at least the portion of the second sealing element. 2. The annular packer of claim 1 , wherein an application of pressure around the exterior of the mandrel moves a portion of the first sealing element away from the exterior of the mandrel to create a first seal against a casing and the radial expansion by axial movement of at least the portion of the second sealing element creates a second seal against the casing. 3. The annular packer of claim 2 , wherein the first seal causes the pressure differential. 4. The annular packer of claim 3 , further comprising a cone connected to the exterior of the mandrel adjacent to the second sealing element, the cone being positioned between the first piston and the second sealing element and wherein the movement of the first piston to the second position moves at least a portion of the cone between at least a portion of the second sealing element and the exterior of the mandrel. 5. The annular packer of claim 3 , further comprising an equalization port, the equalization port being closed when the first piston is in the first position and being open when the first piston is in the second position, wherein the opening of the equalization port releases the first seal. 6. The annular packer of claim 5 , wherein a spring biases the first sealing element to move away from the casing towards the exterior of the mandrel. 7. The annular packer of claim 5 , wherein the second seal against the casing remains during and after when the equalization port is opened. 8. The annular packer of claim 2 , further comprising a shearable device that selectively retains the first piston in the first position, wherein the shearable device is configured to shear and release the first piston at a predetermined pressure differential. 9. The annular packer of claim 8 , further comprising a second piston movable from a first position to a second position within a second chamber on the exterior of the mandrel, the second piston being connected to the first piston, wherein the pressure differential moves the second piston from the first position to the second position. 10. The annular packer of claim 2 , wherein the solid mandrel further comprises a single opening, the single opening being the central bore, the central bore extending from the first end to the second end along a longitudinal axis of the solid mandrel. 11. An annular packer comprising: a solid mandrel having a first end, a second end, a central bore, and an exterior; a first sealing element connected to the exterior of the mandrel; a second sealing element connected to the exterior of the mandrel, wherein the second sealing element is radially expanded by axial movement of at least a portion of the second sealing element; at least one piston movable from a first position to a second position within a chamber on the exterior of the mandrel, the at least one piston and chamber being positioned between the first sealing element and the second sealing element; a first port that permits fluid flow into the chamber, wherein the first sealing element is between the first port and the second sealing element; a rupture disc in communication with the chamber and the first port that selectively prevents communication from the first port to the chamber; wherein via the first port, a predetermined pressure differential exterior of the mandrel bursts the rupture disc and moves the at least one piston from the first position to the second position and wherein the movement of the at least one piston to the second position axially moves at least the portion of the second sealing element. 12. The annular packer of claim 11 , wherein an application of pressure around the exterior of the mandrel moves a portion of the first sealing element away from the exterior of the mandrel to create an initial seal against a casing and the radial expansion of the second sealing element creates a second seal against the casing. 13. The annular packer of claim 12 , wherein the initial seal causes the pressure differential. 14. The annular packer of claim 13 , further comprising a cone connected to the exterior of the mandrel, the second sealing element being positioned between the first sealing element and the cone. 15. The annular packer of claim 14 , further comprising an equalization port, the equalization port being closed when the first piston is in the first position and being open when the first piston is in the second position, wherein the opening of the equalization port releases the initial seal. 16. The annular packer of claim 15 , wherein a spring biases the first sealing element to move away from the casing towards the exterior of the mandrel. 17. The annular packer of claim 15 , wherein the second seal against the casing remains when the equalization port is opened. 18. The annular packer of claim 14 , further comprising a plurality of pistons positioned between the second sealing element and the first sealing element, wherein the predetermined pressure differential exterior of the mandrel bursts the rupture disc and moves the plurality of pistons to move at least a portion of the second sealing element onto at least the portion of the cone. 19. The method of claim 18 , further comprising shearing a device prior to moving the at least one piston with the pressure, wherein shearing the device releases the at least one piston. 20. A method of sealing an annulus comprising: applying pressure to an annulus between a mandrel and a casing, the mandrel being a solid mandrel having a central bore extending from a first end to a second end; moving a portion of a first sealing element against the casing to create an initial seal to selectively isolate the annulus below the first sealing element from the pressure being applied to the annulus, a portion of the first sealing element being connected to an exterior of the mandrel; flowing fluid from the annulus above the first sealing element into a chamber below the first sealing element via a port; moving at least one piston within the chamber with the pressure being applied to the annulus above the first sealing element via the port, the piston being slidably connected to the exterior of the mandrel; and wherein movement of the least one piston moves a portion of a second sealing element against the casing to create a second seal, a portion of the second sealing element being connected to the exterior of the mandrel. 21. The method of claim 20 , further comprising opening an equalization port to e