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The squared area of the box, from the question itself, is 61 square inches. Scaling up the linear dimensions by a factor of 10 will make the area 6100 square inches.
No.
No.
9xy(3xy - 4)
(a + x^2)(b + y^2)
Nothing. The cylinder's surface area does not have a GCF.
The squared area of the box, from the question itself, is 61 square inches. Scaling up the linear dimensions by a factor of 10 will make the area 6100 square inches.
No. That isn't possible: A prime number, by definition, has no smaller factors. A square number does have a smaller factor - the number that is squared.
Assuming the smaller sphere is the image of the larger sphere after transformation (based on the order of the radii): the scale factor is 4/12 = 1/3
cheese
No.
No.
The GCF is 4.
The GCF is 7mn.
9xy(3xy - 4)
If a cell doubles in diameter, its surface will increase by a factor 4, but its volume by a factor of 8. So, basically, the surface gets smaller and smaller, as compared to its volume. This imposes some limitations. Another way to put it is that some parts of a big supercell will be too far from the surface - so they don't get enough oxygen, for example.
(5x - 2y)(5x + 2y)