Which graph represents the inequality \(y\ge-x^2+1\)?

the calculation using the commutative and associative properties of multiplication is:

40.800 = 4.8 * 10 = 10 * 4.8 = (10 * 4) * 0.8 = 40 * 0.8 = 0.8 * 40 = 32.

To calculate 40.800 mentally using basic multiplication facts, we can break it down into smaller multiplications and apply the commutative and associative properties of multiplication.

First, we can use the fact that 4.8 x 10 = 48 to get:

40.800 = 4.8 x 10 x 10 x 10

= 4.8 x (10 x 10) x 10

= (10 x 10) x 4.8 x 10

Here, we have used the commutative property of multiplication to rearrange the order of the factors. We have also used the associative property of multiplication to group the factors in different ways.

Next, we can use the fact that 10 x 10 = 100 to get:

40.800 = 100 x 4.8 x 10

= 100 x (10 x 0.48)

= (100 x 0.48) x 10

Here, we have again used the commutative and associative properties of multiplication to rearrange and group the factors in different ways.

Overall, these equations show how we can break down 40.800 into smaller multiplications and use the commutative and associative properties of multiplication to rearrange and group the factors in different ways to make mental calculations easier.

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The equation of the regression line for the given data is y=2.4x+120.1.

According to the question, we are given a set of data values in the form of a table. This table shows data on the number of people visiting a historical landmark over one week.

          Day(x)                  Number of visitors(y)

              1                              120

              2                             124

              3                             130

              4                              131

              5                              135

              6                              132

              7                              135

We will draw a scatter plot with the help of the set of data values given in the table using the linear regression calculator. We see the regression line with y-intercepts and x-intercepts. The y-intercept is (0, 120.1) and the x-intercept is (-50.04, 0).

Therefore, the regression line for the following data using x-intercept and y-intercept will be :

             y=2.4x+120.1

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The complete question is "This table contains data on the number of people visiting a historical landmark over a period of one week. Using technology, find the equation of the regression line for the following data. Round values to the nearest tenth if necessary."

The chemical equation N2 + 3H2 ---> 2NH3 tells us that in order to make two molecules of NH3, we need one molecule of N2 and three molecules of H2.

To figure out how many moles (which is just a way of measuring how much of a substance you have) of H2 we need to react with 14.0 g of N2, we can use the information from the equation.

First, we convert the 14.0 g of N2 to moles (which means we're figuring out how many pieces of N2 we have, because 1 mole = Avogadro's number of particles, or roughly 6.022 x 10^23).

14.0 g N2 x (1 mol N2/28 g N2) = 0.5 mol N2

Then, we use the mole ratio from the equation to figure out how many moles of H2 we need:

0.5 mol N2 x (3 mol H2/1 mol N2) = 1.5 mol H2

So we'd need 1.5 moles of H2 to react completely with 14.0 g of N2.

The magazine contacted a simple random sample of 400 current​ subscribers, and 126 of those surveyed expressed interest in, next
The magazine should go ahead with the launch of an online edition.

To create a decision on whether to dispatch an internet version, the magazine should test the event that the extent of current supporters who would be fascinated by subscribing to the online version is more than 25% or not.

Let p be the genuine extent of current supporters who would subscribe to the online version.

The invalid speculation is that p = 0.25, and the elective theory is that

p > 0.25.

Ready to utilize a one-sample extent test to test this theory.

The test measurement is:

z = (P- p) / √(p*(1-p) / n)

where P is the test extent, n is the test measure, and p is the hypothesized extent.

In this case, p = 0.25, n = 400, and P = 126/400 = 0.315.

Stopping these values into the equation gives:

z = (0.315 - 0.25) / √(0.25*(1-0.25) / 400) = 3.36

Expecting a noteworthiness level of 0.05, the basic esteem of z for a one-tailed test is 1.645.

Since our calculated value of z (3.36) is more prominent than the basic esteem of z (1.645), able to reject the invalid theory and conclude that there is adequate proof to propose that more than 25% of current endorsers would be fascinated by subscribing to the online version.

Subsequently, the magazine ought to go ahead with the dispatch of a web version. 

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1.35 moles of oxygen and around 1.80 moles of aluminum are mixed in this process.

The balanced chemical formula for the reaction of oxygen and aluminum is:

4 Al + 3 O₂ → 2 Al₂O₃

As a result, in order to create 2 moles of aluminum oxide (Al₂O₃), 3 moles of oxygen gas (O₂) must react with 4 moles of aluminum (Al).

We are given 1.35 moles of oxygen gas, thus we can calculate a percentage to estimate how many moles of aluminum are required using this information:

4 moles Al / 3 moles O₂ = x moles Al / 1.35 moles O

Solving for x, we get:

x = 4 moles Al * 1.35 moles O₂ / 3 moles O₂

x ≈ 1.80 moles Al

Therefore, approximately 1.80 moles of aluminum will be used when reacted with 1.35 moles of oxygen in this reaction.

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The unemployment rate for the given economy is 11.5%.

To calculate the unemployment rate, we need to use the formula:

Unemployment Rate = (Number of Unemployed / Labor Force) x 100

The labor force is the sum of the number of employed and unemployed individuals. In this case, the labor force is:

Labor Force = Number of Employed + Number of Unemployed = 175 million + 35 million = 210 million

However, we need to adjust the labor force to account for discouraged workers, who have given up on finding employment. Therefore, the adjusted labor force is:

Adjusted Labor Force = Labor Force + Number of Discouraged Workers = 210 million + 10 million = 220 million

Now we can calculate the unemployment rate:

Unemployment Rate = (Number of Unemployed / Adjusted Labor Force) x 100 = (35 million / 220 million) x 100 = 15.9%

However, this includes the discouraged workers as part of the labor force. If we want to exclude them, we need to adjust the formula to:

Unemployment Rate = (Number of Unemployed / (Adjusted Labor Force - Number of Discouraged Workers)) x 100

Plugging in the numbers, we get:

Unemployment Rate = (35 million / (220 million - 10 million)) x 100 = 11.5%

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The 96% confidence interval for the difference in proportions is (−0.1127, 0.3191)

To compare the proportions of success in two binomial experiments, we can use the two-sample Z-test.

Let p1 be the proportion of success in the first experiment and p2 be the proportion of success in the second experiment. We want to test the null hypothesis H0: p1 = p2 against the alternative hypothesis Ha: p1 ≠ p2.

First, we calculate the point estimate of the difference in proportions:

[tex]pp1 - p2 = \frac{54}{94} - \frac{40}{63} = 0.1032[/tex]

Next, we find the critical value of the test statistic. Since the confidence level is 96%, we have alpha = 0.04/2 = 0.02 on each tail of the distribution. Using a standard normal distribution table, we find that the critical values are ±2.0537.

The margin of error is given by:

[tex]ME= z \sqrt{\frac{p1(1-p1)}{n1} +\frac{p2(1-p2)}{n2} }[/tex]

where z* is the critical value, n1 and n2 are the sample sizes of the two experiments. Plugging in the values, we get:

[tex]ME= z \sqrt{\frac{0.5769(1-0.5769)}{94} +\frac{0.6349(1-0.6349)}{63} }= 0.2159[/tex]

Finally, we can construct the confidence interval for the difference in proportions as:

(p1 - p2) ± ME

which gives us:

0.1032 ± 0.2159

Thus, the 96% confidence interval for the difference in proportions is (−0.1127, 0.3191).

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Answer:

center = -1, -3

radius = 6

Step-by-step explanation:

x² + y² + 2x + 6y = 26

x² + 2x + y² +6y = 26

equation of a circle is,

(x - h)² + (y - k)² = r²

where center of a circle is (h,k)

radius = r

x² + 2x + y² + 6y = 26

finding the middle point for mid term breaking of the equations,

(2/2)² = 1

(6/2)² = 9

x² + 2x + 1 + y² + 6y + 9 = 26 + 1 +9

to balance the equation we have to add the midpoints at both sides,

thus we have equation of a circle,

(x + 1)² + (y + 3)² = 36

so,

centre of a circle = -1, -3

radius = 6

The volume of the triangular prism is given as follows:

V = 88.13 cm³.

The volume of a triangular prism is given as half the multiplication of the dimensions of the triangle, as follows:

V = 0.5 x l x w x h.

The dimensions of the triangle in this problem are given as follows:

3 cm, 5 cm and 11.75 cm.

Hence the volume of the prism is given as follows:

V = 0.5 x 3 x 5 x 11.75

V = 88.13 cm³.

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The y-intercept of equation 11 + 2t where t is the months after the birth of the baby is 11.

The equation 11 + 2t is modeled by the situation where the weight, in pounds, of a newborn baby after t months is stated.

An equation is represented by y = b + mx where b is the y-intercept and m is the slope of the graph. On comparing the given equation 11 + 2t by the standard equation we have 11 as the intercept and 2 as the slope.

We can interpret from the given context and the equation that the newborn baby is born with 11 pounds weight at birth and with every month there is an increase of 2 pounds in the weight of the newborn.

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Check the picture below.

so the horizontal lines are 4 and 12, and then we have a couple of slanted ones, say with a length of "c" each

[tex]\begin{array}{llll} \textit{using the pythagorean theorem} \\\\ c^2=a^2+o^2\implies c=\sqrt{a^2 + o^2} \end{array} \qquad \begin{cases} c=hypotenuse\\ a=\stackrel{adjacent}{4}\\ o=\stackrel{opposite}{3} \end{cases} \\\\\\ c=\sqrt{ 4^2 + 3^2}\implies c=\sqrt{ 16 + 9 } \implies c=\sqrt{ 25 }\implies c=5 \\\\[-0.35em] ~\dotfill\\\\ \stackrel{\textit{\LARGE Perimeter}}{4+12+5+5}\implies \text{\LARGE 26}[/tex]

The orthogonal projection of v onto the line through [7, -4] and the origin is [-259/65, 148/65].

To compute the orthogonal projection of v onto the line through [7 -4] and the origin, we need to first find the unit vector u in the direction of the line.

The direction vector of the line is given by [7, -4], so a unit vector in this direction is:

u = [7, -4]/sqrt(7^2 + (-4)^2) = [7/√65, -4/√65]

Next, we need to find the projection of v onto u. This is given by the dot product of v and u, multiplied by u:

proj_u(v) = (v dot u) * u

where dot denotes the dot product.

So, we have:

v = [-3, 7]

u = [7/√65, -4/√65]

v dot u = (-3)(7/√65) + 7(-4/√65) = -37/√65

proj_u(v) = (-37/√65) * [7/√65, -4/√65]

Simplifying, we get:

proj_u(v) = [-259/65, 148/65]

Therefore, the orthogonal projection of v onto the line through [7, -4] and the origin is [-259/65, 148/65].

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The probabilities of the three events are:

P(sum < 6) = 1/2

P(sum = 11) = 1/18

P(sum > 8) = 1/3

We have,

There are 6 possible outcomes for the spinner and 6 possible outcomes for the number cube, so there are 6 x 6 = 36 equally likely outcomes in total.

The sum will be less than 6 if Michelle rolls a 1, 2, or 3 on the number cube, regardless of the result of the spinner.

There are 3 possible outcomes for the number cube and 6 possible outcomes for the spinner, so there are 3 x 6 = 18 outcomes where the sum is less than 6.

Therefore, the probability that the sum will be less than 6 is:

= P(sum < 6)

= 18/36

= 1/2

The sum will be equal to 11 if Michelle rolls a 5 or 6 on the spinner and a 6 on the number cube. There are 2 possible outcomes for the spinner and 1 possible outcome for the number cube, so there are 2 x 1 = 2 outcomes where the sum is equal to 11.

Therefore, the probability that the sum will be equal to 11 is:

= P(sum = 11)

= 2/36

= 1/18

The sum will be greater than 8 if Michelle rolls a 3, 4, 5, or 6 on the spinner and a 4, 5, or 6 on the number cube.

There are 4 possible outcomes for the spinner and 3 possible outcomes for the number cube, so there are 4 x 3 = 12 outcomes where the sum is greater than 8.

Therefore, the probability that the sum will be greater than 8 is:

= P(sum > 8)

= 12/36

= 1/3

Therefore,

The probabilities of the three events are:

P(sum < 6) = 1/2

P(sum = 11) = 1/18

P(sum > 8) = 1/3

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Answer: 3

Step-by-step explanation:

3672 divided by 1400 is 2.6228571428571428571428571428571 and when doing this type of question, you need to round up to the nearest whole number.

So, your answer would be 3 tubes of paint.

Hope this helps! :)

P(pick urn 2 | ball labeled 3) = (1/2) * (4/5) / (4/15) = 3/4

a) The probability of picking a ball labeled 2 can be computed using the law of total probability:

P(pick ball labeled 2) = P(pick urn 1) * P(pick ball labeled 2 from urn 1) + P(pick urn 2) * P(pick ball labeled 2 from urn 2)

= (1/5) * (1/3) + (4/5) * (1/4)

= 1/15 + 1/5

= 4/15

b) Using Bayes' theorem, the probability that the ball came from the second urn given that it is labeled 3 is:

P(pick urn 2 | ball labeled 3) = P(ball labeled 3 | pick urn 2) * P(pick urn 2) / P(ball labeled 3)

We know that P(pick urn 2) = 4/5, P(ball labeled 3 | pick urn 2) = 1/2, and we can compute the denominator as follows:

P(ball labeled 3) = P(pick urn 1) * P(ball labeled 3 from urn 1) + P(pick urn 2) * P(ball labeled 3 from urn 2)

= (1/5) * (1/3) + (4/5) * (1/4)

= 1/15 + 1/5

= 4/15

Therefore,

P(pick urn 2 | ball labeled 3) = (1/2) * (4/5) / (4/15) = 3/4

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The solution of the system of equations that is negative is determined as y = -1.

One way to find the system of equations is by graphing the lines of both equations on a coordinate plane. Find the point where both lines intersect to determine the coordinates.

The coordinates of the point where the lines intersect on a coordinate plane is the solution to the system of equations.

The point on the given graph where both lines intersect is (3, -1).Therefore, the negative solution is y = -1.

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Answer:

The answer to this question is --> 0.40

Step-by-step explanation:

simply do the division.

as a fraction is basically nothing else than a division of the upper number by the lower number.

2 divided by 5

2/5 = 0.4

remember, how division works :

first the outmost left digit(s) divided by the digits of the right number. we use the same number of digits on both sides.

2 / 5 = 0

the first step gives us a 0, because 2 cannot be divided by 5.

then we pull down the next digit from the left side.

if we don't have any (as in this case), we simply pull a 0.

20 / 5 = 0.4

when we pull digits on the left side after the decimal point, then the result gets the decimal point exactly at that position.

20/5 = 4, so the 4 goes into the first position after the decimal point.

and therefore, the final result is

2/5 = 0.4

The equation of the regression line is y = 4/5x - 36/5. Option (c)

Using the two points closest to the line, we can estimate the slope and intercept of the regression line. Let's use the points (20, 14) and (50, 38), since they appear to be the closest to the line.

The slope is:

m = (y2 - y1) / (x2 - x1) = (38 - 14) / (50 - 20) = 24 / 30 = 4/5

To find the y-intercept, we can use the equation y = mx + b and plug in one of the points. Let's use (20, 14):

14 = (4/5)(20) + b

14 = 16 + b

b = -2

So the equation of the regression line is:

y = 4/5x - 2

Therefore, the answer is (B) 4/5x - 36/5

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Full Question: The scatter plot and table show the number of grapes and blueberries in 10 fruit baskets. Use the two points closest to the line. Which equation is the equation of the regression line?

A. y = 1/3x - 1/3

B. y = 4/5x + 18

C. y = 4/5x - 36/5

D. y = 5/4x - 45/2

The natural rate of unemployment refers to the level of unemployment that exists when the economy is in equilibrium, meaning both the goods and financial markets are balanced. This rate is typically considered as the baseline level of unemployment, which can be observed in a healthy and stable economy. It consists of two primary components: frictional and structural unemployment.

Frictional unemployment arises due to job transitions, such as workers changing careers or locations, and is often temporary. Structural unemployment, on the other hand, occurs when there is a mismatch between the skills possessed by job seekers and those demanded by employers. This type of unemployment is more long-lasting and requires targeted efforts to address it, such as worker retraining or education initiatives.

When the economy is in equilibrium, the natural rate of unemployment indicates that the labor market is functioning efficiently. The supply and demand for labor are balanced, and there are no external shocks affecting the market. In this state, the overall rate of unemployment remains relatively stable, with changes occurring mainly due to the natural fluctuations in frictional and structural unemployment.

In summary, the natural rate of unemployment represents the level of unemployment that occurs when the goods and financial markets are in equilibrium. It consists of frictional and structural unemployment, and serves as a benchmark for policymakers to evaluate the health and efficiency of the labor market in an economy.

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Cy = [1 1 1; 0 1 1; 0 0 1] [p(1-p) 0 0; 0 p(1-p) 0; 0 0 p(1-p)] [1 0 0; 1 1 0; 1 1 1]

Cy = [

(a) The probability mass function (PMF) for X is:

px(x1, x2, x3) = P(X1 = x1, X2 = x2, X3 = x3) = P(X1 = x1) * P(X2 = x2) * P(X3 = x3) = (1-p)^(1-x1) * p^(x1) * (1-p)^(1-x2) * p^(x2) * (1-p)^(1-x3) * p^(x3) = p^(x1+x2+x3) * (1-p)^(3-x1-x2-x3)

where p=1/4 is the probability of success and (x1,x2,x3) can take values in {0,1}.

(b) The covariance matrix Cx can be calculated using the formula:

Cx = E[(X - mu)(X - mu)^T]

where mu is the mean vector of X, which is [p, p, p]^T in this case, and E denotes the expected value.

Using the fact that X1, X2, X3 are independent, we have:

E[X1X2] = E[X1]E[X2] = p^2

E[X1X3] = E[X1]E[X3] = p^2

E[X2X3] = E[X2]E[X3] = p^2

E[X1] = E[X2] = E[X3] = p

E[X1^2] = E[X2^2] = E[X3^2] = p

E[(X1-p)(X2-p)] = E[X1X2] - p^2 = 0

E[(X1-p)(X3-p)] = E[X1X3] - p^2 = 0

E[(X2-p)(X3-p)] = E[X2X3] - p^2 = 0

Therefore, the probability matrix Cx is:

Cx = E[(X - mu)(X - mu)^T] = E[X X^T] - mu mu^T

Cx = [p^2+p(1-p) p^2 p^2;

p^2 p^2+p(1-p) p^2;

p^2 p^2 p^2+p(1-p)]

- [p^2 p^2 p^2;

p^2 p^2 p^2;

p^2 p^2 p^2]

Cx = [p(1-p) 0 0;

0 p(1-p) 0;

0 0 p(1-p)]

(c) Y can be expressed as a linear combination of X:

Y = [1 0 0] X1 + [1 1 0] X2 + [1 1 1] X3

Therefore, the matrix A is:

A = [1 0 0;

1 1 0;

1 1 1]

(d) The covariance matrix Cy of Y can be calculated as:

Cy = A Cx A^T

Substituting the values of A and Cx, we get:

Cy = [1 1 1; 0 1 1; 0 0 1] [p(1-p) 0 0; 0 p(1-p) 0; 0 0 p(1-p)] [1 0 0; 1 1 0; 1 1 1]

Cy = [

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If we are testing for the difference between two population means and assume that the two populations have equal and unknown standard deviations, the degrees of freedom are computed as (n1)(n2) - 1.

The above statement is False.

In statistics, the number of degrees of freedom is the number of values ​​with independent variables at the end of the statistical calculation. Estimates of statistical data may be based on different data or information. The amount of independent information that goes into the parameter estimation is called the degree of freedom. In general, the degrees of freedom for parameter estimation are equal to the number of independent components involved in the estimation minus the number of parameters used as intermediate steps in the estimation minus the tower of the scale.

When testing for the difference between two population means with equal and unknown standard deviations, the degrees of freedom are computed using the formula:

df = (n1 - 1) + (n2 - 1)

Here, n1 and n2 are the sample sizes of the two populations. This formula sums the degrees of freedom from each population and adjusts for the fact that one degree of freedom is used up when estimating the common standard deviation.

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To show that the formula (Au)T(Av) defines an inner product, we need to verify that it satisfies the four properties of an inner product: linearity in the first component, conjugate symmetry, positivity, and definiteness.

First, we need to show that (Au)T(Av) is linear in the first component. Let u, v, and w be vectors in R^n and let a be a scalar. Then we have:

(Au)T(Av + aw) = (Au)T(Av) + (Au)T(Aw)  (distributivity of matrix multiplication)
= (Au)T(Av) + a(Au)T(Aw)  (linearity of matrix multiplication)

Thus, (Au)T(Av + aw) is linear in the first component. Similarly, we can show that (aAu)T(Av) = a(Au)T(Av) is also linear in the first component.

Next, we need to show that (Au)T(Av) satisfies conjugate symmetry. This means that for any u and v in R^n, we have:

(Au)T(Av) = (Av)T(Au)*

Taking the conjugate transpose of both sides, we get:

[(Au)T(Av)]* = (Av)T(Au)

Since the transpose of a product of matrices is the product of their transposes in reverse order, we have:

[(Au)T(Av)]* = (vTAu)* = uTAv

Therefore, we have:

(Au)T(Av) = (Au)T(Av)*

Thus, (Au)T(Av) satisfies conjugate symmetry.

Next, we need to show that (Au)T(Av) is positive for nonzero vectors u. This means that for any nonzero u in R^n, we have:

(Au)T(Au) > 0

Expanding the formula, we have:

(Au)T(Au) = uTA^T(Au)

Since A is nonzero, its transpose A^T is also nonzero. Therefore, the matrix A^T(A) is positive definite, which means that for any nonzero vector x in R^n, we have xTA^T(A)x > 0. Substituting u for x, we get:

uTA^T(A)u > 0

Thus, (Au)T(Au) is positive for nonzero vectors u.

Finally, we need to show that (Au)T(Au) = 0 if and only if u = 0. This means that (Au)T(Au) is positive definite, which is equivalent to saying that the matrix A^T(A) is positive definite.

Therefore, we have shown that the formula (Au)T(Av) defines an inner product, since it satisfies linearity in the first component, conjugate symmetry, positivity, and definiteness.

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Answer:

(11, 7) with an area of 128 in2.

Step-by-step explanation:

Answer:

V = 120 cm³

Step-by-step explanation:

the volume (V) of the prism is calculated as

V = Ah ( A is the area of the base and h the height )

to find h (ON)

use Pythagoras' identity in right triangle MNO

ON² + MN² = MO²

ON² + 7.5² = 8.5²

ON² + 56.25 = 72.25 ( subtract 56.25 from both sides )

ON² = 16 ( take square root of both sides )

ON = [tex]\sqrt{16}[/tex] = 4

Then

V = (4.5 × 4) × 4 = 30 × 4 = 120 cm³

The magnitude of the error is less than [tex]$\$ 0.015 \$$[/tex], which is our final exact answer.

We can use the Mean Value Theorem to estimate the error in approximating [tex]$(128.012)^{\frac{6}{7}}$[/tex] by [tex]$128^{\frac{6}{7}}$[/tex]. Let [tex]$f(x) = x^{\frac{6}{7}}$[/tex] and [tex]$a = 128.012$[/tex]. Then, by the Mean Value Theorem, there exists some [tex]$c$[/tex] between [tex]$a$[/tex] and [tex]$128$[/tex] such that:

[tex]$$\frac{f(a)-f(128)}{a-128}=f^{\prime}(c)$$[/tex]

Taking the absolute value of both sides and rearranging, we get:

[tex]$$|f(a)-f(128)|=|a-128| \cdot\left|f^{\prime}(c)\right|$$[/tex]

Now, we can find [tex]$\$ f^{\prime}(x) \$$[/tex] :

[tex]$$f(x)=x^{\frac{6}{7}}=e^{\frac{6}{7} \ln x}$$[/tex]

Using the chain rule, we get:

[tex]$$f^{\prime}(x)=\frac{6}{7} x^{-\frac{1}{7}} e^{\frac{6}{7} \ln x}=\frac{6}{7} x^{-\frac{1}{7}} f(x)$$[/tex]

Plugging in [tex]$\$ \mathrm{c} \$$[/tex] and simplifying, we get:

[tex]$$|f(a)-f(128)|=|128.012-128| \cdot\left|\frac{6}{7} c^{-\frac{1}{7}}\left(\frac{128.012}{c}\right)^{\frac{6}{7}}\right|$$[/tex]

We want to find an upper bound for this expression, so we will use the fact that [tex]$\$ c \$$[/tex] is between [tex]$\$ 128 \$$[/tex] and [tex]$\$ 128.012 \$$[/tex]. Therefore, we have:

[tex]$$|f(a)-f(128)| < 0.012 \cdot \frac{6}{7} 128^{-\frac{1}{7}}(128.012)^{\frac{6}{7}}$$[/tex]

Plugging in the values, we get:

[tex]$$|f(a)-f(128)| < 0.012 \cdot \frac{6}{7} \cdot 128^{-\frac{1}{7}}(128.012)^{\frac{6}{7}} \approx 0.015$$[/tex]

Therefore, the magnitude of the error is less than [tex]$\$ 0.015 \$$[/tex], which is our final exact answer.

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There are FOUR  4's in a deck of 52  

   4/52 = 1/13 chance

Second card less than 5 ?

    4 aces    4  two's  4 threes and 4  fours

      16/ out of 52 = 16/52 chance = 4/13 chance

1/13 * 4/13 = 4/169  chance of picking as questioned

Answer:

Step-by-step explanation:

Answer:

13.5

Step-by-step explanation:

Based on the results of the goodness-of-fit test, if the p-value is less than 0.05, we should reject the claim that the distribution of home provinces/territories of alpine skiers is the same as the distribution of home provinces/territories of freestyle skiers at the 5% significance level.

To compare the distributions of home provinces/territories for alpine skiers and freestyle skiers, a goodness-of-fit test can be used. This test compares observed frequencies (i.e., the actual counts of skiers from each province/territory) with expected frequencies (i.e., the counts of skiers that would be expected if the distributions were the same).

However, it is important to note that two of the expected frequencies are less than 5, which violates the assumption of expected frequencies being greater than or equal to 5 for some commonly used goodness-of-fit tests, such as the chi-squared test. Despite this violation, we can still proceed with the test, but the results should be interpreted with caution.

The null hypothesis (H0) for the goodness-of-fit test is that the distributions of home provinces/territories are the same for alpine skiers and freestyle skiers. The alternative hypothesis (H1) is that the distributions are different.

The test is conducted at the 5% significance level, which means that we are willing to accept a 5% chance of making a Type I error (rejecting a true null hypothesis). If the p-value obtained from the goodness-of-fit test is less than 0.05, we would reject the null hypothesis and conclude that the distributions of home provinces/territories are significantly different for alpine skiers and freestyle skiers.

Therefore, based on the results of the goodness-of-fit test, if the p-value is less than 0.05, we should reject the claim that the distribution of home provinces/territories of alpine skiers is the same as the distribution of home provinces/territories of freestyle skiers at the 5% significance level.

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The distance between the two points is √(34) units.

We have,

To graph the right triangle, we first plot the two given points on a coordinate plane.

The hypotenuse of the right triangle is the line segment connecting these two points.

We can find the length of this line segment using the distance formula.

d = √((x2 - x1)² + (y2 - y1)²)

Where (x1, y1) and (x2, y2) are the coordinates of the two points.

Using the distance formula, we have:

d = √((-9 - (-6))² + (-4 - (-9))²)

 = √((-3)² + 5²)

 = √(9 + 25)

 = √(34)

Therefore,

The distance between the two points is √(34) units.

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