Wing tip with optimum loading

What is claimed is: 1. A curved wing tip connected to a wing of an aircraft, the wing having a wing leading edge and a wing trailing edge, the aircraft in a x′-y′-z′ reference system where x′ is a longitudinal axis of the aircraft, y′ is a horizontal axis of the aircraft, and z′ is a vertical axis of the aircraft orthogonal to x′ and y′, the curved wing tip in a x-y-z reference system where x is parallel to x′, y is tangent to a surface of the wing, and z is orthogonal to x and y, the curved wing tip comprising: a leading edge curved to maintain attached air flow and defining a first parabolic line from a leading start point to a leading end point, the first parabolic line approaching a freestream direction parallel to the longitudinal axis of the aircraft at the leading end point; a trailing edge curved to maintain elliptic loading over the wing tip defining a second parabolic line from a trailing start point to a trailing end point, the second parabolic line approaching the freestream direction parallel to the longitudinal axis of the aircraft at the trailing end point; and an end segment connecting the leading end point and the trailing end point swept back from the trailing end point to the leading end point at an end segment angle to maintain a trailing vortex position close to the trailing end point. 2. The curved wing tip according to claim 1 , further comprising a winglet portion positioned between the wing and the curved wing tip leading start point and trailing start point, the winglet extending away from the surface of the wing with a vertical component. 3. A curved wing tip connected to a wing of an aircraft, the wing having a wing leading edge and a wing trailing edge, the aircraft in a x′-y′-z′ reference system where x′ is a longitudinal axis of the aircraft, y′ is a horizontal axis of the aircraft, and z′ is a vertical axis of the aircraft orthogonal to x′ and y′, the curved wing tip in a x-y-z reference system where x is parallel to x′, y is tangent to a surface of the wing, and z is orthogonal to x and y, the curved wing tip comprising: a leading edge curved to maintain attached air flow and defining a first elliptic line from a leading start point to a leading end point, the first elliptic line approaching a freestream direction parallel to the longitudinal axis of the aircraft at the leading end point; a trailing edge curved to maintain elliptic loading over the wing tip defining a second elliptic line from a trailing start point to a trailing end point, the second elliptic line approaching the freestream direction parallel to the longitudinal axis of the aircraft at the trailing end point; and an end segment connecting the leading end point and the trailing end point swept back from the trailing end point to the leading end point at an end segment angle to maintain a trailing vortex position close to the trailing end point. 4. The curved wing tip according to claim 3 , further comprising a winglet portion positioned between the wing and the curved wing tip leading start point and trailing start point, the winglet extending away from the surface of the wing with a vertical component. 5. An aircraft having a curved wing tip connected to an end of a wing, the wing having a wing leading edge and a wing trailing edge, the aircraft having a front, a rear, and a longitudinal axis from the front to the rear, the curved wing tip in a x-y-z reference system where x is parallel to the aircraft longitudinal axis, y is tangent to a surface of the wing, and z is orthogonal to x and y, the curved wing tip comprising: a leading edge defining a first curved line from a leading start point to a leading end point, the first curved line approaching a freestream direction parallel to the longitudinal axis of the aircraft at the leading end point; a trailing edge defining a second curved line from a trailing start point to a trailing end point, the second curved line approaching the freestream direction parallel to the longitudinal axis of the aircraft at the trailing end point, the trailing end point positioned forward the leading end point; and an end segment connecting the trailing end point to the leading end point swept back at an end segment angle. 6. The aircraft according to claim 5 , wherein the angle is approximately equal to a sweep angle of the wing trailing edge. 7. The aircraft according to claim 5 , wherein the first curved line is a first parabolic line and the second curved line is a second parabolic line. 8. The aircraft according to claim 5 , wherein the first curved line is a first elliptical line and the second curved line is a second elliptical line. 9. The aircraft according to claim 5 , wherein the leading edge of the wing tip is closer to the freestream direction at the leading end point than the trailing edge of the wing tip at the trailing end point. 10. The aircraft according to claim 5 , wherein the wing is generally planar and the curved wing tip extends out of a plane of the wing. 11. The aircraft according to claim 5 , wherein the wing is generally planar and the curved wing tip comprises a generally planar portion. 12. The aircraft according to claim 11 , wherein the generally planar portion of the curved wing tip is angled greater than 0° to the plane of the wing. 13. The aircraft according to claim 12 , wherein the generally planar portion of the curved wing tip has a generally linear leading edge and generally linear trailing edge. 14. The aircraft according to claim 13 , further comprising a wing tip end portion curved out of the plane of the generally planar portion of the curved wing tip. 15. The aircraft according to claim 5 , wherein the leading edge forms a first parabolic line starting generally tangential with the wing leading edge, and wherein the trailing edge forms a second parabolic line starting generally tangential from the wing trailing edge, the first parabolic line at the leading end point approaching the freestream direction more closely than the second parabolic line at the trailing end point. 16. The aircraft according to claim 15 , wherein the first parabolic line defined by the leading edge meets a criteria: x−x A =tan Λ LE *( y−y A )+ M 1 *( y−y A ) m 1 +M 2 *( y−y A ) m 2 , wherein M 1 is in a range of about 0.4 to about 0.6, M 2 is in a range of about 0.08 to about 0.12, m 1 is in a range of about 3.6 to about 5.4, and m 2 is in a range of about 5.2 to about 7.7. 17. The aircraft according to claim 15 , wherein the second parabolic line defined by the trailing edge meets a criteria: x−x C =tan Λ TE *( y−y C )+ N 1 *( y−y C ) n 1 +N 2 *( y−y C ) n 2 , wherein N 1 is in a range of about 0.08 to about 0.12, N 2 is in a range of about 0.16 to about 0.24, n 1 is in a range of about 2.8 to about 4.2, and n 2 is in a range of about 3.6 to about 5.4. 18. The aircraft according to claim 15 , wherein the wing tip includes an airfoil chordwise camber and twist. 19. The aircraft according to claim 15 , wherein the end segment has a ratio of end segment length to height in a range of about 0.015 to about 0.020. 20. The aircraft according to claim 5 , wherein the leading edge forms a first elliptic line starting generally tangential with the wing leading edge, and wherein the trailing edge forms a second elliptic line starting generally tangential from the wing trailing edge, the first elliptic line at the leading end point approaching the freestream direction more closely than the second e