The diagonal distance of a square box can be calculated using the Pythagorean theorem. For an 8-meter square box, the formula is (d = \sqrt{a^2 + a^2}), where (a) is the length of a side. Substituting in the values, (d = \sqrt{8^2 + 8^2} = \sqrt{64 + 64} = \sqrt{128} = 8\sqrt{2} \approx 11.31) meters. Thus, the diagonal distance is approximately 11.31 meters.
Cool question ! Answer - half it then cube it to prove it - an example for you if cube diagonal (not square diagonal) is 100, then using pythagoras theorm the square diagonal = 70.71068, If square the square diagonal = 70.71068, then using pythagoras theorm the side length = 50 therefore the volume = 50 ^ 3 = 25000 units works with any numbers
A cubic meter is one square meter on each side of a cube. Think of a box which is one meter long on each side. A square meter has no height, so you can't really say how many square meters are in a cubic meters.
To find the diameter of a square box, you can calculate the diagonal using the Pythagorean theorem. For a 22x22 box, the diagonal (or diameter) is given by the formula (d = \sqrt{(22^2 + 22^2)}), which simplifies to (d = \sqrt{(484 + 484)} = \sqrt{968} \approx 31.1). Therefore, the diameter of a 22x22 box is approximately 31.1 units.
To find the length of the diagonal in a box with dimensions 7 ft x 7 ft, you can use the Pythagorean theorem. The formula for the diagonal (d) of a square is (d = \sqrt{a^2 + b^2}), where (a) and (b) are the lengths of the sides. In this case, both sides are 7 ft, so (d = \sqrt{7^2 + 7^2} = \sqrt{49 + 49} = \sqrt{98} \approx 9.9) ft. Thus, the length of the diagonal is approximately 9.9 feet.
A box is a 3-dimensional object and only two measures are given so it is not clear what the question means. Across the base of the box, the diagonal is 10*sqrt(2) = 14.142 approx.
Imagine a square box laying on the floor, and all the sides are one meter in length. You will have a square that is 1m^2 or one square meter.
Cool question ! Answer - half it then cube it to prove it - an example for you if cube diagonal (not square diagonal) is 100, then using pythagoras theorm the square diagonal = 70.71068, If square the square diagonal = 70.71068, then using pythagoras theorm the side length = 50 therefore the volume = 50 ^ 3 = 25000 units works with any numbers
12 m
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.
No
A cubic meter is one square meter on each side of a cube. Think of a box which is one meter long on each side. A square meter has no height, so you can't really say how many square meters are in a cubic meters.
The proper distance requirement between a power pole and meter box for a mobile home installation is typically around 3 to 5 feet.
Square meters is a way of expressing area. Say you draw a box on a paper that is 1cm in length and 1cm width, that is a 1 square cm box. It's not the lines you've drawn, it's thye space within. A square meter is the same thing except the length is a meter
To find the diameter of a square box, you can calculate the diagonal using the Pythagorean theorem. For a 22x22 box, the diagonal (or diameter) is given by the formula (d = \sqrt{(22^2 + 22^2)}), which simplifies to (d = \sqrt{(484 + 484)} = \sqrt{968} \approx 31.1). Therefore, the diameter of a 22x22 box is approximately 31.1 units.
150mm
A 20-foot square box has a volume of about 226.534 cubic meters.
No. A cubic metre is a volume measurement, what you can fit in a box, 1x1x1 metres in dimension. A square metre is an area measurement corresponding to 1x1 metre.