Turbine blades with tip portions having converging cooling holes

What is claimed is: 1. A turbine rotor blade for a turbine section of an engine, the turbine section including a shroud surrounding the turbine rotor blade, comprising: a platform; and an airfoil extending from the platform into a mainstream gas path of the turbine section, the airfoil comprising a pressure side wall; a suction side wall joined to the pressure side wall at a leading edge and a trailing edge; a tip cap extending between the suction side wall and the pressure side wall; a first squealer tip extension extending from the pressure side wall at a first angle relative to the pressure side wall, the first squealer tip extension defining a first cooling hole that converges from an inlet to an outlet, wherein the first squealer tip extension terminates at a radial wall, and wherein the outlet of the first cooling hole is formed on the radial wall, wherein the first squealer tip extension includes a forward surface that is continuous with a forward surface of the pressure side wall and is completely forward of the forward surface of the pressure side wall relative to a radial axis of the pressure side wall, and wherein the first squealer tip extension further includes a trailing surface that extends in a forward direction at a second angle, non-parallel to the radial axis of the pressure side wall, and a second squealer tip extension extending from the suction side wall at a third angle relative to the suction side wall, wherein the second squealer tip extension includes a trailing surface that is continuous with a trailing surface of the suction side wall and is completely forward of the trailing surface of the suction side wall relative to a radial axis of the suction side wall; and an internal cooling circuit configured to deliver cooling air to a gap between the pressure side squealer tip extension and the shroud via the first cooling hole. 2. The turbine rotor blade of claim 1 , wherein the first angle is approximately equal to the second angle. 3. The turbine rotor blade of claim 1 , wherein the second squealer tip extension is solid. 4. The turbine rotor blade of claim 1 , wherein the outlet of the first cooling hole is completely formed on the radial wall. 5. The turbine rotor blade of claim 1 , wherein the first cooling hole has a longitudinal center line oriented at the first angle relative to the pressure side wall. 6. The turbine rotor blade of claim 1 , wherein the first cooling hole is oriented such that the cooling air blocks at least a portion of tip leakage between the first squealer tip extension and the shroud. 7. The turbine rotor blade of claim 1 , wherein the first angle is 15°-60°. 8. The turbine rotor blade of claim 1 , wherein the airfoil further comprises a step formed in the first squealer tip extension. 9. The turbine rotor blade of claim 8 , wherein the first cooling hole at least partially extends through the step. 10. The turbine rotor blade of claim 9 , wherein the first cooling hole includes a closed channel section through the step and an open channel section through the first squealer tip extension. 11. The turbine rotor blade of claim 1 , wherein the first angle is constant along a chord-length from the leading edge to the trailing edge. 12. A turbine section of a gas turbine engine, comprising: a shroud; and a rotor assembly with a turbine rotor blade comprising a platform defining a mainstream gas path; and an airfoil extending from the platform into the mainstream gas path; the airfoil comprising a pressure side wall; a suction side wall joined to the pressure side wall at a leading edge and a trailing edge; a tip cap extending between the suction side wall and the pressure side wall; a first squealer tip extension extending from the pressure side wall to define a gap between the rotor assembly and the shroud, the first squealer tip extension extending at a first angle relative to the pressure side wall and defining a first cooling hole that converges from an inlet to an outlet, wherein the first squealer tip extension terminates at a radial wall, and wherein the outlet of the first cooling hole is formed on the radial wall, wherein the first squealer tip extension includes a forward surface that is continuous with a forward surface of the pressure side wall and is completely forward of the forward surface of the pressure side wall relative to a radial axis of the pressure side wall, and wherein the first squealer tip extension further includes a trailing surface that extends in a forward direction at a second angle, non-parallel to the radial axis of the pressure side wall, and a second squealer tip extension extending from the suction side wall at a third angle relative to the suction side wall, wherein the second squealer tip extension includes a trailing surface that is continuous with a trailing surface of the suction side wall and is completely forward of the trailing surface of the suction side wall relative to a radial axis of the suction side wall; and an internal cooling circuit configured to deliver cooling air to the gap between the pressure side squealer tip extension and the shroud via the first cooling hole. 13. The turbine section of claim 12 , wherein the second squealer tip extension is solid. 14. The turbine section of claim 12 , wherein the first cooling hole has a longitudinal center line oriented at the first angle relative to the pressure side wall. 15. The turbine section of claim 12 , wherein the first cooling hole is oriented such that the cooling air blocks at least a portion of tip leakage between the first squealer tip extension and the shroud. 16. The turbine section of claim 12 , wherein the first angle is 15°-60°. 17. The turbine section of claim 12 , wherein the airfoil further comprises a step formed in the first squealer tip extension on the tip cap, and wherein the first cooling hole at least partially extends through the step.