yes it is
10 perfect squares
Math can be a fun subject to learn. In a 10 by 10 grid there can be up to 100 perfect squares.
11
To find the perfect squares between 35 and 111, we need to determine the perfect squares closest to these numbers. The closest perfect squares are 36 (6^2) and 100 (10^2). The perfect squares between 36 and 100 are 49 (7^2), 64 (8^2), and 81 (9^2). Therefore, there are 4 perfect squares between 35 and 111: 36, 49, 64, and 81.
The perfect squares between 80 and 130 are 81, 100, 121. These correspond to the squares of the integers 9 (9² = 81), 10 (10² = 100), and 11 (11² = 121).
30
There are total 11 perfect squares between 10 to 200, which are 16, 25, 36, 49, 64, 81, 100, 121, 144, 169, 196 :)
There are infinitely many, just like in base 10. In any base system, the number of perfect squares is the same. Take the natural (counting) numbers 1, 2, 3, .... Squaring each of these produces the perfect squares. As there are an infinite number of natural numbers, there are an infinite number of perfect squares. The first 10 perfect squares in base 5 are: 15, 45, 145, 315, 1005, 1215, 1445, 2245, 3115, 4005, ...
-10
101
683 perfect squares.
Perfect squares cannot have digits after the decimal point.