Projective personality tests are most widely used by the Psychodynamic perspective.
According to Sigmund Freud's theory of personality, people's personalities are shaped by their unconscious motivations and past experiences. The theory also emphasizes the role of the unconscious mind in human behavior.Projective personality tests are based on this psychodynamic theory, which posits that people's unconscious emotions, thoughts, and desires can reveal much about their personalities. The tests seek to uncover this unconscious content by asking people to interpret ambiguous stimuli.
Projective tests are more effective than self-report measures in discovering unconscious thoughts, desires, and motivations because they bypass a person's defenses. Self-report measures, on the other hand, are more susceptible to response bias or social desirability bias.There are many types of projective personality tests, including the Rorschach Inkblot Test, the Thematic Apperception Test, and the Draw-A-Person Test. Although the reliability and validity of projective tests have been debated in the psychological community, they remain popular in clinical and forensic settings today.
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Use translations to graph the given function.
Based on the graph, it looks like the function being graphed is h(x) = √(x+4).
To graph this function using translations, we can start by looking at the graph of the parent function f(x) = √x, which is a basic square root function. The graph of f(x) looks like a half of a parabola, opening up from the origin (0,0), and it includes all points with non-negative x-coordinates.
To graph h(x) = √(x+4), we can start by applying a horizontal shift to the graph of f(x) by replacing x with (x - (-4)) = (x + 4). This will shift the graph of f(x) to the left by 4 units. The resulting function is:
h(x) = √(x+4) = f(x+4)
Next, we can apply a vertical shift of 4 units up, which will move the entire graph of h(x) up by 4 units. The resulting function is:
h(x) = √(x+4) + 4
Using these translations, we can graph h(x) as follows:
Start with the graph of f(x) = √x.
Shift the graph to the left by 4 units by replacing x with (x+4).
Shift the graph up by 4 units by adding 4 to the function.
Plot some points on the resulting graph and connect them with a smooth curve.
The resulting graph should look like the one in the image you provided.
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Prove that 3:8 is equivalent to 12:32
Answer:
3:8 = 12:32
For easier understanding, we make 3:8 into 3/8 and 12:32 into 12/32
3/8 = 12/32
Cross multiply
3*32 = 8*12
96 = 96
Since the products are equal, the ratios are equivalent.
You can also simplify 12:32
12 / 4 = 3
32 / 4 = 8
Consider parallelogram ABCD below. Point E is the intersection of diagonals AC and BD.
Progress: 0/2
Part 1 of 2
4(-2,2)
D(-2,-10)
(a) Find the area of AABE.
cm
2
B (8.2)
C(8.-10)
HELP QUICK PLEASE! DUE TONIGHT!
Josh asked you to help him understand interpolation and extrapolation.
Use an example and a graph to help explain how interpolation and
extrapolation are similar and how they are different
Answer:
Interpolation and extrapolation are two methods used to estimate data points within or beyond a given set of values.Interpolation is the process of estimating a data point within the given range of values, based on the relationship between the known data points. For example, suppose we have the following data points: (1, 3), (2, 5), and (4, 9). If we want to estimate the value of y for x = 3, we can use interpolation to calculate it based on the trend of the data points within the given range. In this case, we can see that the slope of the line between (2, 5) and (4, 9) is the same as the slope of the line between (1, 3) and (2, 5). Therefore, we can estimate the value of y for x = 3 to be 7, using the trend of the known data points.Extrapolation, on the other hand, is the process of estimating a data point beyond the given range of values, based on the trend of the known data points. For example, suppose we have the same data points as before: (1, 3), (2, 5), and (4, 9). If we want to estimate the value of y for x = 5, we can use extrapolation to calculate it based on the trend of the known data points. In this case, we can see that the slope of the line between (2, 5) and (4, 9) is the same as the slope of the line between (1, 3) and (2, 5). Therefore, we can estimate the value of y for x = 5 to be 11, assuming that the trend of the known data points continues beyond the given range.Here is a graph that shows both interpolation and extrapolation:
{graph attached below}
In the graph, the blue dots represent the known data points. The red line represents the trend of the known data points, which can be used for interpolation and extrapolation. The green dot represents an interpolated data point, while the purple dot represents an extrapolated data point.In summary, interpolation and extrapolation are similar in that they both involve estimating data points based on the trend of the known data points. However, they differ in that interpolation estimates data points within the given range of values, while extrapolation estimates data points beyond the given range of values.
hope this helps!
Warm up State the theorems and show the steps needed to find the measure of angle a
Answer:
a=100
Step-by-step explanation:
question sebastian states that experimental and theoretical probabilities are never the same. is sebastian's statement true? why or why not?
Answer:
Step-by-step explanation:
yes
if someone told you that a distribution showed a floor effect, you would surmise that it is group of answer choices
When someone describes a distribution as having a floor effect, it means that the distribution is characterized by a significant clustering of values at the minimum value, creating a skewed distribution with a long tail on the higher end.
This phenomenon is often observed in situations where there is a lower limit or minimum value that restricts the possible range of values that can be observed. The floor effect can be seen in various domains such as clinical trials, educational testing, psychological assessments, and market research, to name a few.
For instance, in a clinical trial, the use of an intervention that is highly effective in reducing symptoms may lead to a large number of participants reaching the minimum score, making it difficult to differentiate between groups in terms of treatment response.
Similarly, in educational testing, a poorly designed test or a test that is too easy for the group being tested may result in a floor effect, where students cluster around the lowest score and scores do not differentiate between students with different levels of knowledge.
A floor effect can be problematic because it can limit the ability to detect differences or changes in scores or performance, which can have implications for interpreting and comparing results across different groups or time points.
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Solve the following quadratic equations by factoring
Answer:
x=5 or x=-5
Step-by-step explanation:
[tex]x^{2} -25=0[/tex]
[tex](x-5)(x+5) =0[/tex]
[tex]x=-5 \\x=5[/tex]
if you flip two coins 28 times, what is the best prediction possible for the number of times both coins will land on heads?
When you flip two coins 28 times, the best prediction possible for the number of times both coins will land on heads is 7 times.
This can be explained with the following calculations:
When flipping a coin, the chance of getting heads or tails is 1/2 or 0.5.
If you flip two coins, the probability of getting two heads is calculated by multiplying the probability of getting heads on the first coin by the probability of getting heads on the second coin, which is (1/2) x (1/2) = 1/4 or 0.25 or 25%.
To calculate the expected number of times both coins will land on heads in 28 flips, we use the following formula:
Expected value = Probability x Total number of flips
Expected value = 0.25 x 28
Expected value = 7
Therefore, the best prediction possible for the number of times both coins will land on heads is 7 times.
It's important to note that this is only a prediction, and the actual number of times both coins land on heads could be more or less than 7.
This is because probabilities are based on chance, and chance outcomes can be unpredictable.
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There is an amoeba (a single-celled animal) on a dish.
After one hour, the amoeba divides to form two amoebas.
One hour later, each amoeba divides to form two more.
Every hour, each amoeba divides to form two more.
Why might exponential notation, like `2^{6}`, be useful for answering these questions?
Exponential notation is useful in this scenario because it can help us quickly calculate the total number of amoebas that exist after a certain number of hours without having to write out each step of the division process.
What is exponential notation?Exponential notation, also known as scientific notation, is a way of representing a number as a product of two factors: a coefficient and a power of 10. The coefficient is a number between 1 and 10, and the power of 10 indicates how many places the decimal point must be moved to obtain the original number.
In the given scenario, we can see that each amoeba doubles every hour, which is an example of exponential growth. Using exponential notation, we can represent the number of amoebas after n hours as 2^n. For example, after 2 hours, there would be 2^2 = 4 amoebas, and after 3 hours, there would be 2^3 = 8 amoebas.
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a pwr core contains about 50000 fuel rods. if the probability to find one defective fuel rod is 0.1%, what is the probability to find 10 defective cores
The probability of finding 10 defective cores in a sample of 10 power cores is approximately 0.0000161, or about 0.0016%.
Assuming that each fuel rod is independent of each other and that the probability of finding a defective fuel rod is constant at 0.1%, we can model the number of defective fuel rods in a power core with a binomial distribution. Let X be the number of defective fuel rods in one power core, then X follows a binomial distribution with parameters n = 50000 and p = 0.1/100 = 0.001.
To find the probability of finding 10 defective cores, we can use the binomial distribution again, but with a different set of parameters. Let Y be the number of defective cores in a sample of 10 power cores, then Y follows a binomial distribution with parameters n = 10 and p = P(X ≥ 1), where P(X ≥ 1) is the probability of finding at least one defective fuel rod in one power core. We can find P(X ≥ 1) using the complement rule:
P(X ≥ 1) = 1 - P(X = 0)
= 1 - (1 - 0.001)^50000
≈ 0.3935
So, the probability of finding 10 defective cores in a sample of 10 power cores is:
P(Y = 10) = (10 choose 10) * (0.3935)^10 * (1 - 0.3935)^(10 - 10)
≈ 0.0000161
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Complete Question:
a power core contains about 50000 fuel rods. if the probability to find one defective fuel rod is 0.1%, what is the probability to find 10 defective cores.
A function is shown on the coordinate plane below. For what intervals is the function increasing?
pls hurry
The function is increasing over the intervals D. -6 < x < -1 and 2 < x < 3 and 4 < x < 6.
When does a function increase?A function is increasing when the slope of its graph is positive, meaning that its graph is rising from left to right.
In the given coordinate plane, the graph of the function consists of three sections, each of which has an increasing slope.
The first section is from -6 to -1, the second section is from 2 to 3, and the third section is from 4 to 6.
This means that the function is increasing over the intervals -6 < x < -1 and 2 < x < 3 and 4 < x < 6.
To confirm this, we can calculate the slope of the graph in each interval. The slope of the graph between two points (x1,y1) and (x2,y2) is given by (y2-y1)/(x2-x1).
For the first interval, the slope is (3-(-5))/(-1-(-6)) = 8/-5 = -1.6. This is a negative value, which means the graph is decreasing over this interval. For the second interval, the slope is (4-3)/(3-2) = 1/1 = 1. This is a positive value, so the graph is increasing over this interval.
For the third interval, the slope is (6-4)/(4-2) = 2/2 = 1. This is also a positive value, so the graph is increasing over this interval as well.
Therefore, the function is increasing over the intervals -6 < x < -1 and 2 < x < 3 and 4 < x < 6, which is option D.
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Is 8 a reasonable solution to log(-x)=log(x-16)?
A) Yes, 8 is a reasonable solution because 8 is positive and -(8)=(8)-16
B) No, 8 is NOT a reasonable solution because at x=8, the logarithm is not defined.
assuming a constant growth factor, by what percent did the population of gotham city grow each year? give at least 3 decimal places.
Assuming a constant growth factor, the population of Gotham City grew by approximately 4.287% each year.
This can be calculated using the formula for exponential growth, which is:
y = a * (1 + r)^t
Where: y = final value of the population
a = initial value of the population
r = annual growth rate expressed as a decimal
t = number of years
For this problem, let's assume that the initial population of Gotham City was 100,000 and that the population grew for 10 years.
Using these values, we can calculate the annual growth rate as follows:
100,000 * (1 + r)^10 = final population
r = (final population / 100,000)^(1/10) - 1
Plugging in a final population of 148,644 (which is a 48.644% increase from the initial population),
r = (148,644 / 100,000)^(1/10) - 1r = 0.04287 (rounded to 5 decimal places)
Therefore, the annual growth rate (or percentage increase) is approximately 4.287% (rounded to 3 decimal places).
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the lifetime of a certain electronic component is a random variable with the expectation of 5000 hours and a standard deviation of 200 hours. using central limit theorem, find the probability that the average lifetime of 100 components is less than 4650 hours?
The probability that the average lifetime of 100 components is less than 4650 hours is 0.62%.
Using the Central Limit Theorem, we can find the probability that the average lifetime of 100 components is less than 4650 hours.
Let x represent the average lifetime of 100 components. The mean and standard deviation of x can be found using the following formulas:
Mean of x = 5000 hours
Standard Deviation of x = 200/sqrt(100) = 20 hours
To find the probability that the average lifetime of 100 components is less than 4650 hours, we need to use the normal distribution formula. This can be written as follows:
P(X < 4650)
⇒ P(Z < (4650-5000)/20)
⇒ P(Z < -2.5)
Using a standard normal table, the probability of Z being less than -2.5 is 0.0062, or 0.62%. Therefore, the probability that the average lifetime of 100 components is less than 4650 hours is 0.62%.
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if you consume seven 28.35-gram (one-ounce) bars this week from a brand at the mean contamination level, what is the probability that you consume one or more insect fragments in more than one bar?
The probability of consuming at least one insect fragment in more than one bar is 0.3011.
Given that you consumed seven 28.35-gram (one-ounce) bars this week from a brand at the mean contamination level. The probability of finding one or more insect fragments in a 28.35-gram chocolate bar that is produced with the mean level of contamination is 0.4875.
The probability that you consume one or more insect fragments in a single bar is 0.4875The probability that you will not consume an insect fragment in a single bar is 0.5125
The probability that you will not consume an insect fragment in any of the seven bars is 0.5125⁷ = 0.0236The probability that you consume one or more insect fragments in more than one bar is 1 - 0.0236 = 0.9764The probability that you consume one or more insect fragments in more than one bar is 0.9764.
The probability that you consume one or more insect fragments in more than one bar is 0.3011.
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The rate of consumption of C3H6 in the following reaction is 0.45 M/s. Calculate the rate of production of H2O. 2 C3H6 + 2 NH3 + 3 O2 rightarrow 2 CH2CHCN + 6 H2O
Answer:
The rate of production of H2O is 1.35 M/s.
Step-by-step explanation:
To calculate the rate of production of H2O, we need to consider the stoichiometry of the balanced chemical equation:
2 C3H6 + 2 NH3 + 3 O2 → 2 CH2CHCN + 6 H2O
Given the rate of consumption of C3H6 is 0.45 M/s, we can use the mole ratio between C3H6 and H2O to find the rate of production of H2O.
Step 1: Determine the mole ratio of C3H6 to H2O in the balanced equation.
Mole ratio = (moles of H2O produced) / (moles of C3H6 consumed) = 6 / 2 = 3
Step 2: Calculate the rate of production of H2O.
Rate of H2O production = (rate of C3H6 consumption) × (mole ratio) = 0.45 M/s × 3 = 1.35 M/s
So, the rate of production of H2O is 1.35 M/s.
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Find a power series representation for the function. (Center your power series representation at x = 0.) f(x) = 1/5 + x f(x) = sigma^infinity_n = 0 ((1/5 + x)^n) Determine the interval of convergence.
a) The power series representation of f(x) = 1/5 + x f(x) centered at x = 0 is f(x) = sigma^infinity_n = 0 ((x/5)^n)
b) The interval of convergence is (-5, 5)
To find the power series representation of f(x), we can use the formula for the geometric series
1 / (1 - r) = sigma^infinity_n = 0 (r^n)
where r is a constant.
In this case, we have
f(x) = 1/5 + x f(x)
We can solve for f(x) to get
f(x) = 1/5 / (1 - x)
Using the formula for the geometric series with r = x/5, we have
f(x) = sigma^infinity_n = 0 ((x/5)^n)
Multiplying both sides by 5, we get
5f(x) = sigma^infinity_n = 0 (x^n
So the power series representation of f(x) centered at x = 0 is
f(x) = sigma^infinity_n = 0 ((x/5)^n)
To determine the interval of convergence, we can use the ratio test
| (x/5)^(n+1) | / | (x/5)^n | = |x/5|
The series converges if the limit of |x/5| as n approaches infinity is less than 1. This is true when |x| < 5, so the interval of convergence is (-5, 5).
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HELP ASAP ON TIME LIMIT 50 PNTS
Answer:
A:1,142 miles.
B; 187.30
C; 4
The diagram shown is two intersecting lines. The measure of <5 is 42°.
Two intersecting lines. Not perpendicular. Angles labeled from far left counterclockwise are labeled 5 then 6 then 7
What is the measure of <7 ? How do you know. Explain your answer in complete sentences.
Suppose the measure of <6 can be represented by(3x-9). What equation can be written to solve for the value of x?
What is the value of x?
Hence, x has a value of 49 as to find x, we add 9 to both sides and divide the result by 3.
what is angle ?The distance between two intersecting lines or planes is measured in terms of angles. The amount of rotation required to align one of the lines or planes with the other is usually expressed in terms of degrees. The range of an angle is 0 degrees (i.e., no rotation) to 360 degrees (corresponding to a complete rotation).
given
As angles 5 and 7 are a pair of linear angles, their sum must be 180 degrees. Angle 7 therefore has a measure of 180 - 42 = 138 degrees.
We can use the fact that angles 6 and 7 are vertical angles and have the same measure to find the value of x. As a result, we can set the following phrase to indicate that the measure of angle 6 is equal to angle 7:
3x - 9 = 138
In order to find x, we add 9 to both sides and divide the result by 3:
3x = 147
x = 49
Hence, x has a value of 49 as to find x, we add 9 to both sides and divide the result by 3.
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Solve the simultaneous equations
log2 − log2 = 2; log2 ( − 2) = 3
The solution to the simultaneous equations log₂x − log₂y = 2 and log₂(x − 2y) = 3 is x = 8 and y = 4.
Solving the simultaneous equationsGiven the following equations
log₂x − log₂y = 2
log₂(x − 2y) = 3
We can simplify the first equation by using the rule of logarithms that states:
log a - log b = log(a/b)
Using this rule, we have:
log₂(x/y) = 2
Rewriting this in exponential form, we get:
x/y = 2²
xy = 4
Multiplying both sides by y, we get:
x = 4y
Substituting this into the second equation, we get:
log₂(4y − 2y) = 3
log₂(2y) = 3
Rewriting this in exponential form, we get:
2y = 8
Dividing both sides by 2, we get:
y = 4
Substituting this value into the equation 2y = x, we get:
x = 2 * 4
x = 8
Hence, the solution to the simultaneous equations is x = 8 and y = 4.
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Complete question
Solve the simultaneous equations :
log2x − log2y = 2
log2(x − 2y) = 3
suppose you have 9 books in a stack but you have space for only 3 books on your bookshelf. (enter whole numbers for all answers.) in how many different ways can you select 3 books from the stack and arrange them in the empty space on your bookshelf?
There are 84 different combinations of 3 books that can be selected from a stack of 9 books. Each combination can be arranged in 6 different ways, resulting in a total of 504 ways.
The number of ways to select 3 books from a stack of 9 books and arrange them in the empty space on the bookshelf can be calculated using the combination formula and the permutation formula.
First, we need to calculate the number of combinations of 3 books that can be selected from the stack of 9 books:
C(9,3) = 9! / (3! * (9-3)!) = 84
This means there are 84 different combinations of 3 books that can be selected from the stack.
Next, we need to calculate the number of ways that each combination of 3 books can be arranged in the empty space on the bookshelf. Since we have 3 spaces on the bookshelf, we can use the permutation formula to calculate the number of ways that 3 books can be arranged in 3 spaces:
P(3,3) = 3! = 6
This means that there are 6 different ways that each combination of 3 books can be arranged on the bookshelf.
To calculate the total number of ways to select 3 books from the stack and arrange them on the bookshelf, we can multiply the number of combinations by the number of permutations:
Total number of ways = C(9,3) * P(3,3) = 84 * 6 = 504
Therefore, there are 504 different ways to select 3 books from the stack and arrange them on the bookshelf.
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Write a word sentence for the question
x - 14 = 52
Answer:
under quadratic equation of fatorisation
You're playing a game in which the probability of winning each round is. 20.
On average, how many rounds do you have to play to first win?
Answer: You would probably have to play about 10 rounds.
The tv had a volume 2808 the width measures 24 inches and the height measures 18 inches what is the depth of the tv?
in how many ways can 4 children be arranged on a 4-animal merry go round if andy is seated on the giraffe
There are 6 possible arrangements of four children on a 4-animal merry-go-round if Andy is seated on the giraffe.
If Andy is seated on the giraffe in a 4-animal merry-go-round, the arrangement of four children on the merry-go-round can be determined as follows:
Since Andy is already seated on the giraffe, only three children are left to be seated on three other animals. The first child can be seated on any of the three remaining animals. The second child can be seated on either of the two remaining animals since one has already been occupied.
Finally, the third child can be seated on the only remaining animal. Therefore, there are three options for the first child, two options for the second child, and one option for the third child, resulting in 3*2*1 = 6 possible arrangements of four children on a 4-animal merry-go-round if Andy is seated on the giraffe.Answer:6.
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suppose that the cumulative probability of a company defaulting by years one, two, three and four are 3%, 6.5%, 10%, and 14.5%, respectively. what is the probability of default in the fourth year conditional on no earlier default?
The probability of default in the fourth year conditional on no earlier default is 14.5%. Option (4).
The probability of default in the fourth year conditional on no earlier default is equal to the probability of default in the fourth year, given that the company did not default in the first three years.
Using the conditional probability formula, we can calculate this probability as follows:
P(Default in Year 4 | No earlier default) = P(Default in Year 4 and No earlier default) / P(No earlier default)
We can calculate the numerator by multiplying the probability of default in the fourth year (14.5%) by the probability of no earlier default, which is the complement of the sum of the probabilities of default in the first three years:
P(Default in Year 4 and No earlier default) = 0.145 x (1 - 0.03 - 0.065 - 0.10) = 0.145 x 0.705 = 0.102
The denominator is simply the probability of no earlier default, which we just calculated:
P(No earlier default) = 1 - 0.03 - 0.065 - 0.10 = 0.705
Now we can substitute these values into the conditional probability formula:
P(Default in Year 4 | No earlier default) = 0.102 / 0.705 = 0.1449, or approximately 14.5%
Therefore, the probability of default in the fourth year conditional on no earlier default is 14.5%.
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Full Question : Suppose that the cumulative probability of a company defaulting by years one, two, three and four are
3%, 6.5%, 10%, 14.5%,respectively. what is the probability of default in the fourth year conditional on no earlier default?
a rectangle has a length of 25 cm and a width of 12.25 cm. a larger, similar rectangle has a width 49 cm. what is the length of the larger rectangle?
Answer: 100 cm
Step-by-step explanation:
1. Since the problem tells us that they are similar, we can infer that this larger rectangle is the same rectangle, only bigger.
2. With this information, we can do the equation 49/12.25 because then we will get the amount the rectangle grows by.
3. 49/12.25=4
4. Now, we can multiply the length(25) by 4.
5. 25 x 4=100
6. The length of the larger rectangle is 100.
I hope this helps!
What is the value of letter D on the number line?
Answer:
What is the value of the letter D on the number line?
Three and twenty-five hundredthsStep-by-step explanation:
You're welcome
find the perimeter. x+10y units 4x^2-x+9y units
The perimeter of the rectangle is equal to (8x² + 38) units.
Perimeter of rectangleThe perimeter of a rectangle is the sum of length of its four sides or the sum of its length and breadth, multiplied by two.
length = (4x² - x + 9y) units
breadth = (x + 10y) units
perimeter = 2×(length + breadth)
perimeter of the rectangle = 2(4x² - x + 9y + x + 10y) units
perimeter of the rectangle = 2(4x² + x - x + 9y + 10y) units
perimeter of the rectangle = 2(4x² + 19y) units
perimeter of the rectangle = (8x² + 38y) units
Therefore, the perimeter of the rectangle is equal to (8x² + 38) units.
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