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Area of each tile = 20 in x 20 in = 400 sq in = 25/9 sq ft

Area to be covered = 120 sq ft

So minimum number of tiles required = 120/ (25/9) = 43.2 ie 44 tiles.


That is the mathematical answer. In real life, the answer will depend on how "well-behaved" the shape is, and the extent to which offcuts cab be used.



Area of each tile = 20 in x 20 in = 400 sq in = 25/9 sq ft

Area to be covered = 120 sq ft

So minimum number of tiles required = 120/ (25/9) = 43.2 ie 44 tiles.


That is the mathematical answer. In real life, the answer will depend on how "well-behaved" the shape is, and the extent to which offcuts cab be used.



Area of each tile = 20 in x 20 in = 400 sq in = 25/9 sq ft

Area to be covered = 120 sq ft

So minimum number of tiles required = 120/ (25/9) = 43.2 ie 44 tiles.


That is the mathematical answer. In real life, the answer will depend on how "well-behaved" the shape is, and the extent to which offcuts cab be used.



Area of each tile = 20 in x 20 in = 400 sq in = 25/9 sq ft

Area to be covered = 120 sq ft

So minimum number of tiles required = 120/ (25/9) = 43.2 ie 44 tiles.


That is the mathematical answer. In real life, the answer will depend on how "well-behaved" the shape is, and the extent to which offcuts cab be used.

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12y ago

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