A puzzle includes a puzzle board having a plurality of cutouts, each cutout having a different geometric shape; a plurality of puzzle pieces adapted to fit within the cutouts, at least some of the puzzle pieces comprising a first segment and a second segment that mate with one another, wherein the f
A puzzle includes a puzzle board having a plurality of cutouts, each cutout having a different geometric shape; a plurality of puzzle pieces adapted to fit within the cutouts, at least some of the puzzle pieces comprising a first segment and a second segment that mate with one another, wherein the first segment and the second segment have a mathematical correlation to the cutout into which the puzzle piece fits. A method of assembling a puzzle is also described.
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1. A puzzle, comprising: a puzzle board having a plurality of cutouts, each cutout having a different geometric shape having sides or edges defining the geometric shape; anda plurality of puzzle pieces geometrically shaped to fit within the cutouts, at least some of the puzzle pieces comprising at l
1. A puzzle, comprising: a puzzle board having a plurality of cutouts, each cutout having a different geometric shape having sides or edges defining the geometric shape; anda plurality of puzzle pieces geometrically shaped to fit within the cutouts, at least some of the puzzle pieces comprising at least a first segment and a second segment that mate with one another and fit within the cutouts,wherein the at least first segment and second segment each have the same number of sides as its corresponding cutout;wherein a third segment has a mathematical correlation to the cutout into which the first, second and third segments fit,wherein the mathematical correlation relates to a numerical value of the cutout sides such that the third segment is in the shape of a numerical value of the cutout sides. 2. The puzzle of claim 1, wherein the first segment and the second segment mate with one another, and together define the same shape as the cutout into which the puzzle piece fits. 3. The puzzle of claim 2, wherein at least some of the puzzle pieces comprise the third segment and a fourth segment, wherein the third segment fits into an opening in the first segment and the fourth segment fits into an opening in the second segment,wherein the third and fourth segments have a mathematical correlation to the cutout into which the puzzle piece fits, wherein the mathematical correlation relates to a numerical value of the cutout sides such that the third or fourth segment features an image having a direct relationship to the numerical value of the cutout sides. 4. The puzzle of claim 3, wherein at least some of the fourth segments are star shaped. 5. The puzzle of claim 1, wherein the geometric shape is selected from the group consisting of egg-shaped, heart-shaped, triangle, square, rectangle, pentagon, hexagon, heptagon, octagon, nonagon, and decagon. 6. The puzzle of claim 1, further comprising a substantially round cutout in the puzzle board, and a substantially round puzzle piece that fits into the substantially round cutout. 7. The puzzle of claim 1, further comprising a plurality of image cards, each image card having a shape corresponding to one of the cutouts in the puzzle board. 8. The puzzle of claim 7, wherein each image card depicts an image having a mathematical correlation to the cutout into which the image card fits. 9. The puzzle of claim 8, wherein the image is selected from the group consisting of animals, dominos, shapes, instruments, and sign language. 10. A method of assembling a puzzle, comprising: providing a puzzle board having a plurality of cutouts, each cutout having a different geometric shape having sides or edges defining the geometric shape;providing a plurality of puzzle pieces, at least some of the puzzle pieces comprising at least a first segment and a second segment that mate with one another; andinserting each segment into a cutout, wherein each segment has the same number of sides as its respective cutout,wherein a third segment has a mathematical correlation to the cutout into which the first, second and third segments fit, wherein the mathematical correlation relates to a numerical value of the cutout sides, and wherein the third segment is in the shape of a numerical value of the cutout sides. 11. The method of claim 10, wherein the geometric shape of the cutouts is selected from the group consisting of egg-shaped, heart-shaped, triangle, square, rectangle, pentagon, hexagon, heptagon, octagon, nonagon, and decagon. 12. The method of claim 10, further comprising placing a substantially round puzzle piece into a substantially round cutout in the puzzle board. 13. The method of claim 10, further comprising: providing a plurality of image cards, each image card having a shape corresponding to one of the cutouts in the puzzle board. 14. The method of claim 13, further comprising placing the image cards on the cutouts in the puzzle board based on an image on each image card with, wherein each image card depicts an image having a mathematical correlation to the cutout into which the image card fits. 15. The method of claim 14, wherein the image is selected from the group consisting of animals, dominos, shapes, instruments, and sign language. 16. A puzzle, comprising: a puzzle board having a plurality of cutouts, each cutout having a different geometric shape having sides or edges defining the geometric shape; anda plurality of puzzle pieces geometrically shaped to fit within the cutouts, at least some of the puzzle pieces comprising at least a first segment and a second segment that mate with one another and fit within the cutouts,wherein the at least first segment and second segment have the same number of sides as its corresponding cutout;wherein a third segment is shaped to fit within the first or second segment and has a mathematical correlation to the cutout into which the puzzle piece fits, wherein the mathematical correlation relates to a numerical value of the cutout sides such that the third segment features a non-numerical image having a direct relationship to the numerical value of the cutout sides. 17. The puzzle of claim 16, wherein the non-numerical image comprises animals, instruments, toys or sign language.
Nowak Ralph M. (Marblehead MA) Ashton Harold (Providence RI) Hornbostel Earlene (Brighton MA), Picture puzzle of multiple panels with progressive difficulty.
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