Blocks and block connectors, block systems and methods of making blocks

What is claimed is: 1. A wall block system for constructing a wall from a plurality of wall blocks stacked in at least an upper course of wall blocks and a lower course of wall blocks, the wall block system comprising: a wall block having a block body with opposed front and rear faces, opposed first and second side walls, and opposed and parallel top and bottom planar surfaces, the block body having a depth defined by a distance between the front and rear faces, the block body having an indentation opening into the rear face and extending into the block body a distance less than the depth of the block body; and a block connector having upper, intermediate and lower portions, the upper portion being sized to be received within the indentation in the rear face of the wall block, the intermediate portion extending between the upper and lower portions and having a length at least as great as a distance between the indentation in the rear face of the wall block and the bottom planar surface of the wall block, the lower portion being sized to extend below the bottom planar surface of the wall block when the upper portion is received in the indentation such that, in a constructed wall, when the wall block is stacked in the upper course of blocks the lower portion of the block connector abuts against the rear face of an adjacent wall block in the lower course of blocks in the wall, wherein the upper portion of the connector includes a first member extending from the intermediate portion in a first direction and a second member extending from the intermediate portion in a second direction different from the first direction, the first and second members each being sized to be received and retained within the indentation, and wherein the lower portion of the connector includes a projection extending from the intermediate portion in the first direction, the connector being positioned in a first orientation when the first member is received within the indentation and in a second orientation when the second member is received within the indentation, such that, in a constructed wall, the upper course of blocks is setback from the lower course of blocks by a distance equal to a length of the projection when the connector is positioned in the first orientation and the upper course of blocks has a zero setback with respect to the lower course of blocks when the connector is positioned in the second orientation. 2. The wall block system of claim 1 wherein the indentation comprises a horizontal channel. 3. The wall block system of claim 2 wherein the channel has a cross-sectional shape which is one of T-shaped, L-shaped, semi-spherical and dovetail. 4. The wall block of claim 2 wherein the channel is open to at least one of the first and second side walls and shaped to permit insertion and removal of the upper portion of the block connector through the channel opening in at least one of the first and second side walls and to prevent removal of the upper portion of the block connector through the channel opening in the rear face of the block body. 5. The wall block system of claim 1 wherein the upper portion of the connector includes a plurality of fins sized to be deformed when the upper portion is received in the indentation to provide a friction fit to secure the connector to the wall block. 6. The wall block system of claim 1 wherein the indentation in the rear face of the wall block is at least a first and second indentation. 7. The wall block system of claim 6 wherein the at least first and second indentations are holes, each hole having a shape that is round, oval, square, rectangular or triangular. 8. The wall block system of claim 6 wherein the upper portion of the connectors include a plurality of fins sized to be deformed when the upper portion is received in the at least first and second indentations to provide a friction fit to secure the connector to the wall block. 9. A method for constructing a wall from a wall block system which includes a plurality of wall blocks having a rear face including an indentation extending into the body of the wall blocks and block connectors having upper, intermediate and lower portions, the method comprising: positioning a first plurality of the wall blocks to form at least a portion of a first course of the wall; attaching at least one connector to each of a second plurality of wall blocks such that the upper portion of the at least one connector is received in the indentation in the rear face of the wall block, the intermediate portion of the connector extends along the rear face of the wall block between the indentation and a bottom surface of the wall block, and the lower portion of the connector extends below the bottom surface of the wall block; and stacking the second plurality of wall blocks on the first plurality of wall blocks to form at least a portion of a second course of the wall, the lower portion of the at least one connector attached to each of the second plurality of wall blocks abutting a rear face of at least one of the blocks in the first course to thereby prevent forward movement of the second plurality of wall blocks with respect to the first course of the wall, wherein the upper portion of each block connector includes a first member extending from the intermediate portion in a first direction and a second member extending from the intermediate portion in a second direction different from the first direction, the first and second members each being sized to be received and retained within the at least one indentation, and wherein the lower portion of each block connector includes a projection extending from the intermediate portion in the first direction, the block connector being positioned in a first orientation when the first member is received within the at least one indentation and in a second orientation when the second member is received within the at least one indentation such that the second course of blocks is setback from the first course of blocks by a distance equal to a length of the projection when the block connector is positioned in the first orientation and the second course of blocks has a zero setback with respect to the first course of blocks when the block connector is positioned in the second orientation. 10. The method of claim 9 wherein the indentation in the rear face of the plurality of wall blocks comprises a horizontal channel. 11. The method of claim 10 wherein the channel has a cross-sectional shape which is one of T-shaped, L-shaped, semi-spherical and dovetail. 12. The method of claim 10 wherein the channel is open to at least one of the first and second side walls and shaped to permit insertion and removal of the upper portion of the block connector through the channel opening in at least one of the first and second side walls and to prevent removal of the upper portion of the block connector through the channel opening in the rear face of the block body. 13. The method of claim 9 wherein the upper portion of the block connectors includes a plurality of fins sized to be deformed when the upper portion is received in the indentation to provide a friction fit to secure the block connector to the wall block. 14. The method of claim 9 wherein the indentation in the rear face of the plurality of wall blocks is at least a first and second indentation. 15. The method of claim 14 wherein the at least first and second indentations are holes, each hole having a shape that is round, oval, square, rectangular or triangular. 16. The method of claim 14 wherein the upper portion of the block connectors includes a plurality of fin