Answer:
A polynomial together with the absolute value function can make a pretty good model (see the attachment)
Step-by-step explanation:
With a sufficient number of specified points, a polynomial can make a pretty good model of almost any smooth function. Here, the function's derivative is undefined at a couple of points, so there are some options for those. If the slopes match on either side of those zeros, then the absolute value function can be used to model the "reflection" at the x-axis. Otherwise, a piecewise description can be used.
The left portion of the curve looks a little like a sine wave, but a cubic or other polynomial can model that wave fairly well. The portion to the right of the maximum looks like a bouncing ball, so can be modeled by a piecewise quadratic function.
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<em>Comment on the graph</em>
The attached graph is of a 9th-degree polynomial model. Points were added until the model almost matched the curve. If additional points are defined, a higher-degree model may give a better fit. The "bounce" is modeled by the absolute value function.
the square root is 8.246211251
Answer:
2
Step-by-step explanation:
ist you have to lind the lcd of each fraction. that would be 10.
1/2x5/5=5/10 of the boys have brown eyes
1/5x2/2=2/10 of the boys have blue eyes
3/10=3/10 of the boys have hazel eyes
The question is asking to see how many more boys have brown eyes than hazel eyes.
Subtract 3/10 from 5/10
and that gives you 2/10
Answer:
I gotchu fam!
Step-by-step explanation:
4. Surface area = 605.76
Lateral = 9.8
5. Surface area = 352.8
Lateral = 241.5
6. Surface area = 134125.74343434433443
Lateral = 5444442.443
<h2><em><u>
Mark Brainliest</u></em></h2>