the probability of a particular digit is more than 8%. the graph represents the situation. which values are included in the solution set? check all that apply
Answers
Based on the use of Benford's law, only B and E can be included in the solution set out of all the given values.
What is seen as Benford's Law?
Benford's Law, also known as the first-digit law, posits that the initial digits in a set of data are more likely to be smaller.
One must ascertain whether the provided values adhere to the criteria set by Benford's Law. Values like 0.5, 2.5, and 3.5 are excluded from the solution set as they do not satisfy the requirement for a whole number as the first digit.
Considering B and E, a closer examination of the graph is necessary. From the visual representation, Consequently, only the values B and Eare eligible to be part of the solution set.
Learn more about Benford's law here
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Which values are included in the solution set? Select all that apply.
A set of numbers satisfies Benford’s Law if the probability of a number starting with digit d is P(d) = log(d + 1) – log(d).
On a coordinate plane, a dotted line is at y = 0.08. Everything above the line is shaded and is labeled y greater-than 0.08. A dotted line curve goes through (0.5, 0.7) and (4, 0.1). Everything below the line is shaded and is labeled y greater-than log (x + 1) minus log x.
The probability of a particular digit is more than 8%. The graph represents the situation.
Which values are included in the solution set? Check all that apply.
0.5
1
2.5
3.5
4
5
Answer:
Option B. 1 and Option E. 4
Step-by-step explanation:
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5 years ago, Cheryl was d years old, Brandon is 2 years older than Cheryl.a. how old is Cheryl b. how old is Brandon c. what was the difference in their ages 5 years ago?d. what is the sum of their ages now?e. what will the sum of their ages be two years from now?f. what will the difference of their ages be two years from now will mark the brainliest.
Write the prime factorization of 20 using exponents
Answers
Answer:
Step-by-step explanation:
hello :
the system is : y= 3x+4....(*)
y+6=3x....(**)
by (**) : y = 3x - 6
so : y= 3x+4
y= 3x - 6
means : 3x+4 = 3x - 6
4= -6.......(false)
conclusion : no reals solutions
Answers
y = 4 (x-2) ^ 2-1
Rewriting we have:
y = 4 (x ^ 2-4x + 4) ^ 2-1
Multiplying the common factor 2 we have:
y = 4x ^ 2-16x + 16-1
Adding the constant term we have:
y = 4x ^ 2-16x + 15
Answer:
y = 4x ^ 2-16x + 15
option D
Answers
Answer: A
Step-by-step explanation:
For this problem, we can automatically eliminate B and D. We know this because of the inequality. The inequality is less than or equal to. anything that has an equal to sign is a solid line because any point on the line itself is a solution. If it was a < sign, it shows that the solution is less than, and not equal to. Therefore, the line would be dotted/dashed.
Now that we have figured out what type of line we have, we can see where the shading is located. To do so, we must make all the same variables go on the same side to see the equation.
y ≤ x²-4x+2
From this, we see that y is less than or equal to. This tells us that the shading is under the line. Under the line, y goes towards negative infinity, which makes y less than the line. Above the line, y goes towards positive infinity, which makes y greater than the line. That would make the inequality y≥x²-4x+2. Therefore, A is the correct answer.
Answers
The correct answer is D.
As you can see, the exponential function grows by doubling the previous output with each increment of the input: start with 1, you double it to get 2, then you double it to get 4, 8 and so on.
On the other hand, the linear function adds 7 with each step. This means that the exponential function will eventually reach and pass the linear one, and will definitely be grater from that point on. In fact, if we continue the table, we get
and you can see how the exponential growth is much faster than the linear one.
Answers
Answer:
The contestant should not play.
Step-by-step explanation:
As per the given question, their current winning is $1 million.
The probability of the guessing to be true is 50% = .
There is also a possibility of 50% to be wrong, which can reduced the winning amount to $500,000 that is the half of the current amount.
Hence, the contestant should not play.
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