Turbine bucket including cooling passage with turn

What is claimed is: 1. A turbine bucket core cooling circuit comprising: a rib extending from a base of the bucket substantially radially into a casing of an airfoil, the casing including opposed pressure and suction sidewalls of the airfoil; an outflow portion of a cooling passage extending substantially along a first side of the rib in a substantially chordwise plane in the casing; an inflow portion of the cooling passage extending substantially along a second side of the rib opposed to the first side of the rib and substantially in the chordwise plane; a turn connecting the outflow portion to the inflow portion proximate an end of the airfoil, the end including at least one of a tip or a root of the airfoil, the turn including a non-uniform contour and an inner wall that includes at least a portion of the rib, the non-uniform contour including a variable radius of curvature R i of the inner wall in a plane transverse to the chordwise plane, the radius of curvature R i of the inner wall on at least one of a pressure side of the turn or a suction side of the turn having a first radius value R tlow at a first end of the turn, gradually changing to a second radius value R tmid through first and second portions of the turn extending contiguously radially from the first end, remaining substantially constant in a third portion extending radially from the second portion, and having at least one other radius value in another portion of the turn, wherein the turn is substantially defined as part of a nominal profile substantially in accordance with non-dimensional Cartesian coordinate values of X, Y, and Z set forth in TABLE I, wherein the coordinate values are convertible to distances by multiplying the values by a desired height expressed in units of distance, and wherein X and Y values connected by smooth continuing arcs define turn profile sections at each distance Z along the turn, the profile sections at the Z distances being joined smoothly with one another to form the turn profile. 2. The turbine bucket core cooling circuit of claim 1 , wherein the non-uniform contour includes a blend of a baseline contour and a bulb contour. 3. The turbine bucket core cooling circuit of claim 1 , wherein the another portion of the turn includes a fourth portion extending contiguously radially from the third portion and at least partly around an end of the rib such that the first, second, third, and fourth portions are in substantially one half of the turn, and the at least one other radius value includes a third radius value R tup in the fourth portion. 4. The turbine bucket core cooling circuit of claim 3 , wherein the radius of curvature has the third radius value R tup substantially throughout the fourth portion. 5. The turbine bucket core cooling circuit of claim 3 , wherein each of the pressure side and the suction side of the turn includes respective first, second, third, and fourth, portions, the first end of one of the pressure side or the suction side being an entry of the turn and the first end of the other of the pressure side or the suction side being an exit of the turn, the fourth portions being joined and the radius of curvature R i in both fourth portions having the third radius value R tup at least where joined. 6. The turbine bucket of claim 5 , wherein each of the pressure side and the suction side of the turn further includes baseline and end sections extending contiguously from the fourth portion to a second end of the turn, the first, second, and third portions of one of the pressure side or the suction side of the turn are in substantial alignment with the baseline portion of the other of the pressure side or the suction side of the turn and are spaced apart therefrom in a substantially circumferential direction, wherein the fourth portion of the one of the pressure side or the suction side of the turn is in substantial alignment with the baseline portion of the other of the pressure side or the suction side of the turn and is spaced apart therefrom in a substantially circumferential direction, and wherein at any point along a radius of the bucket the radius of curvature R i of the inner wall through the first, second, and third portions of the pressure side of the turn is substantially equal to the radius of curvature R i of the inner wall in the baseline portion of the suction side of the turn. 7. The turbine bucket cooling circuit of claim 6 , wherein the third radius value R tup is from about 2.2 times the first radius value R tlow to about 2.8 times the first radius value R tlow . 8. The turbine bucket cooling circuit of claim 1 , wherein the second radius value R tmid is from about 1.3 times the first radius value R tlow to about 1.7 times the first radius value R tlow . 9. A turbine bucket comprising: a base; an airfoil including: a root connected to the base; a tip radially opposed to the root; and a casing including opposed pressure and suction sidewalls extending chordwise between opposed leading and trailing edges and spanwise between the root and the tip; a core including: a rib extending substantially radially from the base into the casing toward the tip of the airfoil; and a cooling passage having: an outflow portion and an inflow portion on opposed sides of the rib, each of the outflow and inflow portions extending between the root and the tip of the airfoil; an inlet on a base end of the outflow portion arranged for fluid communication with a coolant source; and a turn proximate an end of the airfoil in fluid communication with and connecting the outflow portion and the inflow portion proximate the airfoil end, the turn being one of a tipturn of the airfoil or a root turn of the airfoil and the end being a respective one of the tip of the airfoil or the root of the airfoil, an inner wall of the turn including a non-uniform contour and bending around at least a portion of the rib, the non-uniform contour including a variable radius of curvature R i of the inner wall in a plane transverse to a chordwise plane, the radius of curvature R i of the inner wall on at least one of a pressure side of the turn or a suction side of the turn having a first radius value R tlow at a first end of the turn, gradually changing to a second radius value R tmid through first and second portions of the turn extending contiguously radially from the first end, remaining substantially constant in a third portion extending radially from the second portion, and having at least one other radius value in another portion of the turn, wherein the turn includes a nominal profile substantially in accordance with non-dimensional Cartesian coordinate values of X, Y, and Z set forth in TABLE I, wherein the coordinate values are convertible to distances by multiplying the values by a desired height expressed in units of distance, and wherein X and Y values connected by smooth continuing arcs define turn sections at each distance Z along the turn, the turn sections at the Z distances being joined smoothly with one another to form the turn profile. 10. The turbine bucket of claim 9 , wherein the second radius value R tmid is from about 1.3 times the first radius value R tlow to about 1.7 times the first radius value R tlow . 11. The turbine bucket of claim 9 , wherein the another portion of the turn includes a fourth portion extending contiguously radially from the third portion and at least partly around an end of the rib such that the first, second, third, and fourth portions are in substantially one half of the turn, and the at least one other radius value includes a third radius value R tup in substantially all of the fourth portion. 12. The turbine bucket