Based on the above, the the local maximum over the interval [–3, 1.5] for the graphed function is known to be 56.
<h3>What is the Local maximum about?</h3>
The local maximum is known to be a term that connote the maximum value of the function that is often seen over an interval.
In this case, the interval is (-3,1.5).
Because the function value show the y-value on graph, then we have to find for maximum y-value on curve.
And looking at the curve, the maximum is 56 at (-1.6,56).
Therefore, the local maximum value is 56.
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To prove that it is a parallelogram, remember that the definition of a parallelogram is a quadrilateral with two pairs of parallel sides. Therefore, one way to prove it is a parallelogram is to verify that the opposite sides are parallel. From algebra, remember that two lines are parallel if they have the same slope.
Answer:
x≥88
88
88≤x≤100
Step-by-step explanation:
83x3=249
249-73-88=88
x≥88
88
88≤x≤100
If you convert 1/4 to a denominator of 8, you will get 2/8. This means that Amber wrapped up 2/8 out of the 3/8 she had left. Therefore, Amber has only left 1/8 of the cake for herself.