The graph of the given linear function f(x) = 3|x – 4| + 1 is shown below.
There are many tools we can use to find the information of the relation which was used to form the graph.
A graph contains data of which input maps to which output.
Analysis of this leads to the relations which were used to make it.
For example, if the graph of a function is rising upwards after a certain value of x, then the function must be having an increasing output for inputs greater than that value of x.
If we know that the function crosses the x-axis at some point, then for some polynomial functions, we have those as roots of the polynomial.
The graph of the given linear function f(x) = 3|x – 4| + 1 is shown below.
Learn more about finding the graphed function here:
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Answer:
the graph to this equation is
Step-by-step explanation:
hope this helps :)
Answer:
A on ed
Step-by-step explanation:
Answer:
Degree: 4; Type: quartic; Leading coefficient: 1
Step-by-step explanation:
A relationship is proportional if the ratio between the output and the input is constant:
In your case, we have
This means that it takes the reader one unit of time to read 65 pages. So, after 2 units of time, he reads 130 pages, and so on.
Answer:
see below for the working
Step-by-step explanation:
Dividing by a number is the same as multiplying by the inverse of that number.
Answer:
9
Step-by-step explanation:
Expected number of defective is given as :
N x P = np
Where = number of the sample drawn from the production lot
P= percentage of bulbs In The lot which are defective
N = 15
P = 60% = 0.60
So when we do the multiplication,
We have:
NP = 15x0.60
= 9
So in conclusion the expected value of defective bulbs in the sample is 9.