Sealing features for a gas turbine engine

What is claimed is: 1. A blade for a gas turbine engine comprising a body including a root configured to engage a turbine rotor, an airfoil extending from the root, and a receiver positioned distally from the root, and a floating blade seal received in the receiver such that centrifugal force applied to the floating blade seal during rotation of the blade about an axis of rotation causes the floating blade seal to move relative to the body and seat against the receiver to extend a radial height of the blade, wherein the receiver defines a channel having a first width at a base of the receiver and a second width at an apex of the receiver, the base positioned closer to the root than the apex, the first width being greater than the second width, and wherein the receiver has first and second surfaces that extend between the base and the apex, the first and second surfaces converging from the base to the apex. 2. The blade of claim 1 , wherein the floating blade seal has a base having a first width and at least two surfaces converging from the base, the width of the floating blade seal decreasing from the base to an apex to define a blade seal edge. 3. The blade of claim 2 , wherein the floating blade seal comprises a prismatic structure that has a quadrilateral cross-sectional shape with a base and two converging sides that intersect a top. 4. The blade of claim 3 , wherein the upper surface of the prismatic structure intersects the first side surface to form an edge that extends along a length of the prismatic structure. 5. The blade of claim 4 , wherein the floating blade seal is free to move relative to the receiver. 6. The blade of claim 1 , wherein the floating blade seal is free to move relative to the receiver. 7. The blade of claim 6 , wherein the body defines a flow path extending from the root to the receiver, the flow path configured to direct a flow of gas through the body to impart the flow on the floating blade seal. 8. The blade of claim 1 , wherein the root is configured to be coupled to the rotor of a wheel assembly of a gas turbine engine, and wherein the floating blade seal comprises a seal structure cantilevered from the blade body, the seal structure including a plurality of receivers positioned in spaced apart relation along the seal structure, each receiver forming a receiver channel, and a respective floating blade seal positioned in each receiver channel, each floating blade seal defining an edge, the respective floating blade seals movable relative to the receiver to vary the distance of the edge from the axis of rotation when the blade is rotated about the axis of rotation. 9. The blade of claim 8 wherein each receiver defines a channel having a first width at a base of the receiver and a second width at an apex of the receiver, the base positioned closer to the root than the apex, the first width greater than the second width; wherein each receiver has first and second surfaces that extend between the base and the apex, the first and second surfaces converging from the base to the apex; wherein each floating blade seal has a base having a first width and at least two surfaces converging from the base, the width of the floating blade seal decreasing from the base to an apex to define the edge; wherein each floating blade seal comprises a prismatic structure that has a quadrilateral cross-sectional shape with a base and two converging sides that intersect a top; wherein the upper surface of the prismatic structure intersects the first side surface to form an edge that extends along a length of the prismatic structure; and wherein each floating blade seal is free to move relative to the receiver. 10. The blade of claim 1 , wherein the floating blade seal comprises a runner arranged around the axis of rotation of the gas turbine engine, wherein the rotor is adapted to move about the axis of rotation of the gas turbine engine, the rotor formed to include circumferentially-extending receiver channel opening to face the runner, and a floating seal arranged in the receiver channel of the rotor, the floating seal movable in the radial direction relative to the shroud. 11. The blade of claim 1 , further comprising a turbine wheel assembly including a central hub arranged around the central axis; wherein the blade is secured to the hub, the blade's root being engaged with the hub to secure the blade to the hub and wherein the airfoil extends outward radially from the hub, a shroud extending outward radially from the airfoil that is formed to include a circumferentially-extending receiver channel, wherein the floating blade seal is arranged in the receiver channel of at least one of the shrouds, the floating blade seal movable in the radial direction relative to the shroud. 12. The blade of claim 11 further comprising a plurality of blades secured to the hub, each blade including a root engaged with the hub to secure the blade to the hub, an airfoil extending outward radially from the hub, and a shroud extending outward radially from the airfoil that is formed to include a circumferentially-extending receiver channel, wherein the floating blade seal is arranged in the receiver channel of all of the shrouds, wherein the floating blade seal includes a plurality of segments that cooperate to extend around substantially the entire circumference of the turbine wheel assembly, and wherein the receiver channels of each of the plurality of blades cooperate to form a seal channel that extends around substantially the entire circumference of the turbine wheel assembly. 13. The blade of claim 1 further comprising a turbine section comprising a turbine case including a housing and a plurality of blade tracks arranged about an inner periphery of the housing around the axis of rotation, wherein the turbine rotor includes a plurality of turbine wheel assemblies mounted in the turbine case to rotate about the axis of rotation, each turbine wheel assembly including a hub and a plurality of blades secured about the periphery of the hub, and wherein at least one blade of the plurality of blades includes a first portion fixed to the rotor and a second portion moveable relative to the first portion to vary the radial height of the blade during rotation of the turbine rotor. 14. The blade of claim 13 , wherein the turbine section further comprises a housing and a blade track positioned about an inner periphery of the housing and aligned with the at least one turbine wheel such that the second portion of the at least one blade is positioned adjacent the blade track and spaced apart from the blade track by a variable gap, wherein a length of the at least one blade extends as a result of the centrifugal force applied to the second portion as the rotor rotates, wherein contact between the second portion and the blade track causes the second portion to be urged toward the rotor to reduce the length of the at least one blade, wherein the first portion includes a receiver that constrains movement of the second portion relative to the first portion, wherein the length of the at least one blade extends as a result of the centrifugal force applied to the second portion as the rotor rotates, wherein contact between the second portion and the blade track causes the second portion to be urged toward the rotor to reduce the length of the at least one blade, wherein the first portion is formed to include a passageway to a cooling gas to flow from the rotor through the first portion and into the receiver, wherein the second portion is formed to include an edge that defines the gap, the edge extending parallel to the axis of rotation