Twelve hundred-thousandths is<u> </u><u>ten thousandth greater </u><u> </u> than twenty millionths
Step-by-step explanation:
We subtract the two fractions;
twelve hundred-thousandths – 12/100,000
twenty millionths – 20/1,000,000
We begin by finding the LCM of 100,000 & 1,000,000 which is 1,000,000. Then;
12/100,000 – 20 / 1,000,000 = (120 - 20)1,000,000
= 100/1,000,000
= 1/10,000
Answer:
52
Step-by-step explanation:
your mother is not okay
The base will have the greatest area for a given perimeter if it is square. If the edge of the square base has length x (in feet), then the total material requirement in square feet is
.. m = x^2 +(4/x^2)*(4x)
.. m = x^2 +16/x
This will have a minimum where dm/dx = 0.
.. dm/dx = 2x -16/x^2 = 0
.. x^3 = 8 . . . . . . . . . . . . . . . multiply by x^2/2 and add 8
.. x = 2
The tank is 2 feet square and 1 ft high.
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You will note that it is half the height of a cube that has double the volume. This is the generic solution to all minimum cost open-top box problems. Actually, the costs of pairs of opposite sides are equal to each other and to the cost of the base. If material costs are not identical in all directions, that is the more generic solution.
Answer:
6 x 4 = 24
Step-by-step explanation:
There's a theorem that states:
"<span>If a quadrilateral is a parallelogram, </span>it has<span> 2 sets of opposite sides congruent.</span><span>"
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Hope this helps ;)