1 foot = 0.30480 meter (wikipedia) 1 square foot = 0.30480^2 = 0,092900304 square meter reversed: 1/0,092900304 = 10.7642274 (square) feet in one square meter
If the number with the digits reversed can have a leading 0 so that it is a 1-digit number, then 16. Otherwise 13.
the are of 1 square centimeter is equivalent to a 1cmX1cm box. this questions answers itself, square means its a 2 dimensional object, both sides of which are 1 cm long.
It is 2*(1*2 + 2*2 + 2*1) = 2*(2 + 4 + 2) = 2*8 = 16 square units.
8 square feet
------------->It can help determine the outcome of offspring. A punnett square consists regularly of a 2 by 2 box square, sometimes even a 4 by 4 box square
you need to check the 120amp fuse in the engine fuse box, it may be green. it is a bigger square fuse, it bolts in to the fuse box. im a toyota tech, and we see it all the time.
To get the square inches in the box you need to multiply the length times width so a 2 inch by 4 inch box is 2x4= 8 square inches
A box of Bruce natural oak, 3/4 inch thick, 2 1/4 inch wide, random lengths is euqal to roughly 20 square feet per box.
There is no answer to this, a "square" (I assume a square meter) is a measure of area (2-dimensions), whereas a cubic meter is a measure of volume (3-dimensions).E.g.Suppose a piece of wood has a length and width of 1 meter each. This makes the wood 1 square meter in size.If you take 6 of these pieces of wood and build a box, the box will have length, width, and height of 1 meter (i.e. a cube). The box has a volume of 1 cubic meter.
x + y = 1xy = 1y = 1 - xx(1 - x) = 1x - x^2 = 1-x^2 + x - 1 = 0 or multiplying all terms by -1;(-x^2)(-1) + (x)(-1) - (1)(-1) = 0x^2 - x + 1 = 0The roots are complex numbers. Use the quadratic formula and find them:a = 1, b = -1, and c = 1x = [-b + square root of (b^2 - (4)(a)(c)]/2a orx = [-b - square root of (b^2 - (4)(a)(c)]/2aSox = [-(-1) + square root of ((-1)^2 - (4)(1)(1)]/2(1)x = [1 + square root of (1 - 4]/2x = [1 + square root of (- 3)]/2 orx = [1 + square root of (-1 )(3)]/2; substitute (-1) = i^2;x = [1 + square root of (i^2 )(3)]/2x = [1 + (square root of 3)i]/2x = 1/2 + [i(square root of 3]/2 andx = 1/2 - [i(square root of 3)]/2Since we have two values for x, we will find also two values for yy = 1 - xy = 1 - [1/2 + (i(square root of 3))/2]y = 1 - 1/2 - [i(square root of 3)]/2y = 1/2 - [i(square root of 3)]/2 andy = 1 - [1/2 - (i(square root of 3))/2)]y = 1 - 1/2 + [i(square root of 3))/2]y = 1/2 + [i(square root of 3)]/2Thus, these numbers are:1. x = 1/2 + [i(square root of 3)]/2 and y = 1/2 - [i(square root of 3)]/22. x = 1/2 - [i(square root of 3)]/2 and y = 1/2 + [i(square root of 3)]/2Let's check this:x + y = 11/2 + [i(square root of 3)]/2 +1/2 - [i(square root of 3)]/2 = 1/2 + 1/2 = 1xy = 1[1/2 + [i(square root of 3)]/2] [1/2 - [i(square root of 3)]/2]= (1/2)(1/2) -(1/2)[i(square root of 3)]/2] + [i(square root of 3)]/2](1/2) - [i(square root of 3)]/2] [i(square root of 3)]/2]= 1/4 - [i(square root of 3)]/4 + [i(square root of 3)]/4 - (3i^2)/4; substitute ( i^2)=-1:= 1/4 - [(3)(-1)]/4= 1/4 + 3/4= 4/4=1In the same way we check and two other values of x and y.
Square root of 1/2 = (1)/(square root of 2) = 1/1.4142 = 0.7071 Also Square root of 1/2 = Square root of 0.5 = 0.7071