5 x 5 = 25, so there are 25 squares. If this is a multiplication table, then there are a few scenarios. Sometimes the 1 x row and columns are not shown. So it could be 4 x 4 = 16 (because 2 through 5 is only 4 squares). But sometimes the actual numbers to be multiplied could be counted as being squares, so then you could have 6 x 6 = 36, but the one up in the upper left corner is not really a square so it'd be 35. Or if you had the 2 through 5, with the factors, less the one in the upper corner, then you have 24.
It is not possible to answer in terms of a grid that cannot be seen, but a normal grid of 2 squares x 2 squares will have 5 squares.
relevant answer: 25
25 Squares * * * * * 30 squares A 5*5 grid offers squares of sides 4, 3, 2 and 1 - as follows: 1 of 4*4 4 of 3*3 9 of 2*2 16 of 1*1
If its a 4 by 5 grid, there are 20 squares because 4 times 5 =20 20 by 2 is 40 so there are 40 triangles because there are 2 triangles that fit into each square. Hope this helps!
Because 5 times 5 = 25 and 3 times 3 = 9
It is: 5/20 times 100 = 25% shaded squares
4 squares in a 2 by 2 grid 9 squares in a 3 by 3 grid 16 squares in a 4 by 4 grid 25 squares in a 5 by 5 grid 36 squares in a 6 by 6 grid 49 squares in a 7by 7 grid 64 squares in a 8 by 8 grid 81 squares in a 9 by 9 grid 100 squares in a 10 by 10 grid
It is not possible to answer in terms of a grid that cannot be seen, but a normal grid of 2 squares x 2 squares will have 5 squares.
There would be 25 squares because to find the area of a square you take width, 5, times, height, 5. 5 x 5 = 25.
relevant answer: 25
5
There are 5 squares in a 2 by 2 grid if the large square enclosing all four smaller squares is included in the count.
30
25 Squares * * * * * 30 squares A 5*5 grid offers squares of sides 4, 3, 2 and 1 - as follows: 1 of 4*4 4 of 3*3 9 of 2*2 16 of 1*1
90
5
25 or something * * * * * 30 squares A 5*5 grid offers squares of sides 4, 3, 2 and 1 - as follows: 1 of 4*4 4 of 3*3 9 of 2*2 16 of 1*1