Dual field optical aiming system for projectile weapons

The invention claimed is: 1. A projectile weapon aiming system, comprising: a telescopic sight including a housing having a mounting surface that facilitates mounting the telescopic sight on a projectile weapon in alignment with a line of initial trajectory of the projectile weapon, the housing supporting an optical system of the telescopic sight and positioning the optical system relative to the mounting surface, the optical system including: an objective horizontally offset relative to a vertical plane containing the line of initial trajectory when the telescopic sight is mounted to the projectile weapon; a light redirection device that receives light from the objective and produces at a focal plane an image of a field of view of the telescopic sight, the image being horizontally offset from the objective; and an eyepiece positioned rearward of the focal plane and defining an eye point spaced apart rearwardly from the eyepiece at which the image of the field of view is visible through the eyepiece, wherein, when the telescopic sight is mounted to the projectile weapon, the eye point is located at a place on the vertical plane such that a line parallel to the line of initial trajectory and intersecting the eye point does not intersect the telescopic sight. 2. A projectile weapon aiming system, comprising; a telescopic sight including a housing having a mounting surface that facilitates mounting the telescopic sight on a projectile weapon in alignment with a line of initial trajectory of the projectile weapon, the housing supporting an optical system of the telescopic sight and positioning the optical system relative to the mounting surface, the optical system forming at a focal plane an image of a field of view of the telescopic sight, the optical system including: an objective having an optical axis horizontally offset relative to a vertical plane containing the line of initial trajectory when the telescopic sight is mounted to the projectile weapon; a light redirected device that receives light from the objective and redirects the light to a location horizontally offset from the optical axis of the objective; and an eyepiece positioned rearward of the focal plane and defining an eye point spaced apart rearwardly from the eyepiece at witch the image of the field of view is visible through the eyepiece, wherein, when the telescopic sight is mounted to the projectile weapon, the eye point is located at a place on the vertical plane such that a line parallel to the line of initial trajectory and intersecting the eye point does not intersect the eyepiece; and an aiming reticle located at the focal plane. 3. The aiming system of claim 1 , wherein the eye point is located above a horizontal plane tangent to an uppermost edge of the eyepiece that faces away from the line of initial trajectory when the telescopic sight is mounted to the projectile weapon. 4. The aiming system of claim 3 , further comprising a non-magnifying sight having a viewing window positioned predominantly above the horizontal plane when both the non-magnifying sight and the telescopic sight are mounted to the projectile weapon, such that both the telescopic sight and the non-magnifying sight can be used to aim the projectile weapon with essentially no movement of the viewer's head. 5. The aiming system of claim 4 , wherein the non-magnifying sight and the telescopic sight are independently mountable in tandem on a common mounting rail of the projectile weapon and separately removable from the common mounting rail. 6. The aiming system of claim 4 , wherein the non-magnifying sight is a reflex sight, and the viewing window is a partial reflector. 7. The aiming system of claim 4 , wherein the non-magnifying sight is a holographic weapon sight. 8. The aiming system of claim 1 , wherein: the optical system defines an optical path extending from the objective to the eyepiece; and the light redirection device includes spaced-apart first and second reflective surfaces arranged to fold the optical path. 9. The aiming system of claim 8 , wherein: the first reflective surface receives light from the objective and reflects it forwardly along a first path fold segment; and the second reflective surface receives the light reflected by the first reflective surface and reflects such light rearward along a second path fold segment that is angled upwardly away from the line of initial trajectory. 10. The aiming system of claim 9 , wherein the first path fold segment is angled downwardly toward the second reflective surface relative to an optical axis of the objective. 11. The aiming system of claim 8 , wherein the first and second reflective surfaces comprise respective first and second mirrors. 12. The aiming system of claim 8 , wherein the first and second reflective surfaces are surfaces of a prism system. 13. The aiming system of claim 1 , wherein the light redirection device includes: an image sensor; and an electronic image display device positioned at the focal plane and spaced apart from the image sensor. 14. The aiming system of claim 1 , wherein: the objective forms a first image of the field of view at a front focal plane; the focal plane viewed by the eyepiece is a rear focal plane spaced apart from the front focal plane; and the optical system further includes: an aiming reticle located at the front focal plane; and a power-varying relay lens system interposed in an optical path between the front focal plane and the rear focal plane and including at least one lens element selectively movable along the optical path to vary an optical magnification of the telescopic sight. 15. The aiming system of claim 14 , wherein the aiming reticle includes: a primary aiming mark located on a vertical aiming axis; and multiple holdover aiming marks spaced apart below the primary aiming mark, the holdover aiming marks laterally offset to one side of the vertical aiming axis to compensate for the horizontal offset of the objective. 16. The aiming system of claim 2 , wherein the aiming reticle includes: a primary aiming mark located on a vertical aiming axis; and multiple holdover aiming marks spaced apart below the primary aiming mark, the holdover aiming marks laterally offset to one side of the vertical aiming axis to compensate for the horizontal offset of the objective. 17. The aiming system of claim 2 , wherein the objective and the aiming reticle define a line of sight angled horizontally inward toward the vertical plane when the telescopic sight is mounted to the projectile weapon. 18. The aiming system of claim 2 , wherein: the objective and the aiming reticle define a line of sight of the optical system; the objective includes an objective lens that is slidably supported on the housing for movement transversely of an optical axis of the objective lens relative to other elements of the optical system; and the telescopic sight further comprises an adjustment mechanism supported on the housing and operable to drive the objective lens transversely of its optical axis to thereby adjust the line of sight of the telescopic sight. 19. The aiming system of claim 1 , wherein the mounting surface includes a clamp that is sized and shaped to secure the telescopic sight to a Picatinny rail, the clamp including a fixed portion integrally formed in the housing and a movable jaw portion. 20. The aiming system of claim 1 , wherein an outer surface of the housing includes an auxiliary sight mounting platform located forward of the eyepiece, the