Use the Quotient Rule of Logarithms to write an expanded expression equivalent to log 4
​
( x
3x−5
​
). Make sure to use parenthesis around your logarithm functions log(x+y). Note: If you are using log you need to type it in and use the subscript button on the keyboard. There is no log button.

The solution to the differential equation y" y' = xe using reduction of order is y(x) = Cu(x)^2(e^(x^2)).

To solve the differential equation y" y' = xe using reduction of order, we first assume that the solution can be written in the form y(x) = u(x)v(x), where u(x) and v(x) are functions of x. We then differentiate this expression twice to obtain:

y'(x) = u'(x)v(x) + u(x)v'(x)

y''(x) = u''(x)v(x) + 2u'(x)v'(x) + u(x)v''(x)

Substituting these expressions into the original differential equation, we get:

u''(x)v(x) + 2u'(x)v'(x) + u(x)v''(x))(u'(x)v(x)) = xe

Expanding and simplifying, we get:

u''(x)v(x)(u'(x)v(x)) + 2u'(x)v'(x)(u'(x)v(x)) + u(x)v''(x)(u'(x)v(x)) = xe

Rearranging terms, we get:

v(x)(u''(x)(u'(x))^2 + 2(u'(x))^3) + u(x)(v''(x)(u'(x))v(x)) = xe

Since we assumed that y(x) = u(x)v(x), we know that y' can be expressed as:

y' = u'v + uv'

Substituting this expression into the original differential equation, we get:

(u'v + uv')(u'v) = xe

Expanding and simplifying, we get:

(u')^2(v^2) + 2uv(u')(v') = xe

We can now solve for v' by dividing both sides by 2uv(v') and integrating with respect to x:

∫ (1/2uv(v')) dv' = ∫ (x/2u) dx

Simplifying and integrating, we get:

ln|v(x)| = (1/2)ln|u(x)|^2 + (1/2)x^2 + C1

where C1 is the constant of integration.

Exponentiating both sides, we get:

v(x) = Cu(x)(e^(x^2)/4)

where C is a constant of integration.

We can now substitute this expression for v(x) into our original assumption that y(x) = u(x)v(x), to obtain:

y(x) = u(x)Cu(x)(e^(x^2)/4)

Simplifying, we get:

y(x) = Cu(x)^2(e^(x^2))

where C is a constant of integration.

To know more about differential equation refer here:

https://brainly.com/question/32645495#

#SPJ11

The estimated effect size if researchers wanted to test the hypothesis that graduate students spend on average $1,900.00 on rent each month is -0.7.

The estimated effect size if researchers wanted to test the hypothesis that graduate students spend on average $1,900.00 on rent each month can be calculated using the formula for Cohen's d.Cohen's d = (x - μ) / σwhere x is the sample mean, μ is the population mean, and σ is the population standard deviation.

Since the population standard deviation is not known, we will use the sample standard deviation s as an estimate of the population standard deviation. Thus, we have:Cohen's d = (x - μ) / swhere x = $1,200.00, μ = $1,900.00, and s = $500.00.Cohen's d = (1,200 - 1,900) / 500 = -0.7

Therefore, the estimated effect size if researchers wanted to test the hypothesis that graduate students spend on average $1,900.00 on rent each month is -0.7.

This indicates a medium effect size according to Cohen's criteria of d = 0.2 for a small effect, d = 0.5 for a medium effect, and d = 0.8 for a large effect.

Know more about hypothesis here,

https://brainly.com/question/29576929

#SPJ11

The volume of oil exiting the pipe is approximately 100 cu in/hr, 2,400 cu in/day, and 1.39 cu ft/day when converting cu in/day to cubic feet per day.



To calculate the volume of oil exiting the pipe every hour, you would need to know the flow rate of the oil in cubic inches per hour. Let's assume the flow rate is 100 cubic inches per hour.To find the volume of oil exiting the pipe every day, you would multiply the flow rate by the number of hours in a day. There are 24 hours in a day, so the volume of oil exiting the pipe every day would be 100 cubic inches per hour multiplied by 24 hours, which equals 2,400 cubic inches per day.

To convert the volume from cubic inches per day to cubic feet per day, you would need to divide the volume in cubic inches by the number of cubic inches in a cubic foot. There are 1,728 cubic inches in a cubic foot. So, dividing 2,400 cubic inches per day by 1,728 cubic inches per cubic foot, we get approximately 1.39 cubic feet per day.

Therefore, the volume of oil exiting the pipe is approximately 100 cubic inches per hour, 2,400 cubic inches per day, and 1.39 cubic feet per day.

To learn more about volume click here

brainly.com/question/22907480

#SPJ11

We are given that a binomial variable has a probability of success of p = 0.45 and we sample n = 60 trials. We need to find the mean and standard deviation of this binomial variable.

The mean [tex](\( \mu \))[/tex] of a binomial variable is given by [tex]\( \mu = np \)[/tex], where [tex]\( n \)[/tex] is the number of trials and [tex]\( p \)[/tex] is the probability of success. In this case, [tex]\( n = 60 \)[/tex] and[tex]\( p = 0.45 \)[/tex] , so the mean is [tex]\( \mu = 60 \cdot 0.45 = 27 \)[/tex].

The standard deviation [tex](\( \sigma \))[/tex] of a binomial variable is given by[tex]\( \sigma = \sqrt{np(1-p)} \)[/tex]. Substituting the given values, we have [tex]\( \sigma = \sqrt{60 \cdot 0.45 \cdot 0.55} \)[/tex]. Evaluating this expression, we find [tex]\( \sigma \approx 3.293 \)[/tex].

Therefore, the mean of the binomial variable is 27 and the standard deviation is approximately 3.293. These values provide information about the central tendency and spread of the binomial distribution in this scenario.

To learn more about variable click here:

brainly.com/question/29583350

#SPJ11

Applying Kirchoff's laws to an electric circuit,

a) the electric current |B using matrix inversion is  -2A + 3/4 - 9C/4.

b) IA and IC cannot be determined using Cramer's Rule due to indeterminate forms.

To determine the electric currents using matrix inversion and Cramer's Rule, we need to solve the system of equations obtained by applying Kirchhoff's laws.

(a) Determining the electric current IB using matrix inversion:

The system can be represented as AX = B, where A is the coefficient matrix, X is the matrix of unknowns, and B is the matrix of constants.

A ={ | 2/A B -C |, | -A 1 C |, | -2/A 0 4/C |}

X = {| IA |, | IB |, | IC |}

B = {|-8 |, | 3 |, | 18 |}

To solve for X, we can use matrix inversion:

AX = B

X = A^(-1) * B

Calculating the inverse of matrix A:

A^(-1) ={ | -(1/A) -B/(AC) C/(AC) |, | A/4 1/4 -C/4 |, | 1/(2A) 0 -1/(2C) |}

Multiplying A^(-1) by B:

X = A^(-1) * B = {| -(1/A) -B/(AC) C/(AC) | * |-8 |, | A/4 1/4 -C/4 |*| 3 |, | 1/(2A) 0 -1/(2C) |* | 18 |}

Simplifying the multiplication:

IA = -(1/A) * (-8) + (-B/(AC)) * 3 + (C/(AC)) * 18

IB = (A/4) * (-8) + (1/4) * 3 + (-C/4) * 18

IC = (1/(2A)) * (-8) + 0 + (-1/(2C)) * 18

Simplifying further, we get:

IA = 8/A + 3B/(AC) + 18C/(AC)

IB = -2A + 3/4 - 9C/4

IC = -4/A - 9/(2C)

Therefore, the electric current IB is given by -2A + 3/4 - 9C/4.

(b) Determining the electric currents IA and IC using Cramer's Rule:

We can use Cramer's Rule to solve for IA and IC by finding the determinants of matrices formed by replacing the respective columns of the coefficient matrix with the column of constants.

Determinant of A1 (matrix formed by replacing the first column with the column of constants):

D1 ={ |-8 B -C |, | 3 1 C |, | 18 0 4/C |}

Determinant of A2 (matrix formed by replacing the second column with the column of constants):

D2 = {| 2/A -8 -C |, | -A 3 C |, | -2/A 18 4/C |}

Determinant of A3 (matrix formed by replacing the third column with the column of constants):

D3 = {| 2/A B -8 |, | -A 1 3 |, | -2/A 0 18 |}

Using Cramer's Rule:

IA = D1 / D

IC = D3 / D

where D is the determinant of the coefficient matrix A.

Calculating the determinants:

D = {| 2/A B -C |, | -A 1 C |, | -2/A 0 4/C |}

D = (2/A)(1)(4/C) + (-A)(0)(-C) + (-2/A)(1)(0) - (-2/A)(1)(4/C) - (2/A)(0)(-C) - (-A)(1)(0)

= 8/(AC) + 0 + 0 - 8/(AC) - 0 - 0

= 0

D1 = {|-8 B -C |, | 3 1 C |, | 18 0 4/C |}

D2 = {| 2/A -8 -C |, | -A 3 C |, | -2/A 18 4/C |}

D3 = {| 2/A B -8 |, | -A 1 3 |, | -2/A 0 18 |}

Calculating IA and IC using Cramer's Rule:

IA = D1 / D = 0 / 0 (indeterminate form)

IC = D3 / D = 0 / 0 (indeterminate form)

Therefore, IA and IC cannot be determined using Cramer's Rule.

(a) The electric current IB is given by -2A + 3/4 - 9C/4.

(b) IA and IC cannot be determined using Cramer's Rule due to indeterminate forms.

To learn more about Cramer's Rule visit :

https://brainly.com/question/20354529

#SPJ11

The harmonic conjugates of u(x, y) are -

∂v/∂x =  y²+x³ + constant

-∂v/∂y =  -y²-x³ + constant

Given function,

u(x,y)=x³−3xy²+y

Now, to check whether u(x, y) is harmonic on C or not, we need to verify whether it satisfies Laplace equation or not.

Here, Laplace equation is defined as:

∂²u/∂x² + ∂²u/∂y² = 0

Differentiating given function w.r.t x and y we get,

∂u/∂x=3x²-3y²

∂u/∂y=-6xy

Putting these values in Laplace equation,

∂²u/∂x² + ∂²u/∂y² = (6x-6x)

= 0

Thus, u(x, y) is harmonic on C.

Now, we need to find harmonic conjugates of u(x, y).

u(x,y)=x³−3xy²+y

Differentiating u(x, y) w.r.t x, we get the first partial derivative of v(x, y).

∂v/∂x = ∂/∂x(integral of ∂u/∂y dy)

= y²+x³ + constant

Differentiating u(x, y) w.r.t y, we get the negative of the second partial derivative of v(x, y).

-∂v/∂y = ∂/∂y(integral of ∂u/∂x dx)

= -y²-x³ + constant

Multiplying -1 on both sides, we get

∂v/∂y = y²+x³ + constant

On integrating above two equations, we get:

v(x, y) = (1/4)x⁴ + (1/3)y³ + Ax + B

where A and B are constants.

Now, to check the result, we need to integrate the Cauchy-Riemann equations, which are:

∂u/∂x = ∂v/∂y

∂u/∂y = -∂v/∂x

∂u/∂x=3x²-3y²

∂v/∂y=3x²-3y²

∂u/∂y=-6xy

-∂v/∂x=-6xy

As, both sides are equal, this shows that we have calculated the harmonic conjugates of u(x, y) correctly.

Know more about the harmonic conjugates

https://brainly.com/question/32731179

#SPJ11

Several measures of disease can be calculated based on the information provided such as: prevalence, Incidence, PPV & NPV, Sensitivity and Specificity.

1. Prevalence: Prevalence is the proportion of individuals in a population who have a specific disease or condition at a given point in time. In this case, the prevalence of Chlamydia can be calculated by dividing the number of individuals who screened positive (500) by the total number of individuals screened (800).

  Prevalence = Number of individuals with Chlamydia / Total number of individuals screened

  Prevalence = 500 / 800 = 0.625 or 62.5%

  So, the prevalence of Chlamydia in the screened population is 62.5%.

2. Incidence: Incidence is the rate at which new cases of a disease occur within a defined population over a specific time period. Since the information provided does not specify a time period or the number of new cases, it is not possible to calculate the incidence based on the given data.

3. Sensitivity and Specificity: Sensitivity and specificity are measures of the accuracy of a diagnostic test.

  - Sensitivity: Sensitivity is the ability of a test to correctly identify individuals who have the disease (true positive rate). In this case, it would represent the proportion of individuals who tested positive out of all the individuals who actually have Chlamydia.

  - Specificity: Specificity is the ability of a test to correctly identify individuals who do not have the disease (true negative rate). In this case, it would represent the proportion of individuals who tested negative out of all the individuals who do not have Chlamydia.

  To calculate sensitivity and specificity, additional information about the test results (true positives, true negatives, false positives, and false negatives) would be required.

4. Positive Predictive Value (PPV) and Negative Predictive Value (NPV): PPV and NPV are measures that assess the probability that a positive or negative test result is correct, respectively. They depend not only on the sensitivity and specificity of the test but also on the prevalence of the disease in the population.

  PPV and NPV can be calculated if the sensitivity, specificity, and prevalence of the disease are known. Without this information, it is not possible to calculate PPV and NPV based on the given data.

Remember, to obtain a more accurate understanding of disease measures, it is essential to consider the study design, sample representativeness, and other relevant factors.

Learn more about probability here:

https://brainly.com/question/31828911

#SPJ11

The solution to the equation

−

1

9

(

−

�

−

7

)

=

−

6

�

−

9

1

​

(−x−7)=−6x is

�

=

45

52

x=

52

45

​

.

To solve the equation algebraically, we'll begin by simplifying both sides of the equation. Distributing the

−

1

9

−

9

1

​

 on the left side, we have

1

9

(

�

+

7

)

=

−

6

�

9

1

​

(x+7)=−6x. Multiplying both sides by 9 to eliminate the fraction, we obtain

�

+

7

=

−

54

�

x+7=−54x.

Next, we combine like terms by moving all the

�

x terms to one side and the constant terms to the other side. Adding

54

�

54x to both sides, we get

55

�

+

7

=

0

55x+7=0. Subtracting 7 from both sides gives us

55

�

=

−

7

55x=−7.

Finally, we solve for

�

x by dividing both sides of the equation by 55. This gives us

�

=

−

7

55

x=

55

−7

​

.

After performing the algebraic operations and simplifications, we find that the solution to the equation

−

1

9

(

−

�

−

7

)

=

−

6

�

−

9

1

​

(−x−7)=−6x is

�

=

−

7

55

x=

55

−7

​

, which can be expressed as the reduced improper fraction

45

52

52

45

​

.

To know more about algebraic, visit;
https://brainly.com/question/29131718
#SPJ11

The demand for these calculators by the students in the instructor's class would likely be inelastic.

Inelastic demand refers to a situation where a change in price has a relatively small impact on the quantity demanded. In this case, the students are required to have a specific type of calculator that only performs basic operations and power/root functions, which are available at a low cost (approximately $1.00-$1.50).

The demand for these calculators is likely to be inelastic because the students have a limited range of options when it comes to meeting the specific requirements set by the instructor. Since more advanced calculators with additional features are not allowed, the students have no alternative but to purchase the approved calculators.

Even if the price of these calculators were to increase, the students would still need to comply with the instructor's guidelines, which creates a situation where the quantity demanded remains relatively unchanged. Therefore, the demand for these calculators in the instructor's class is expected to be inelastic.

to learn more about demand click here:

brainly.com/question/31397351

#SPJ11

With a 10% interest rate and a change in the exchange rate from $1.50/£1.0 to $1.38/£1.0, a £10,000 deposit in a London bank yields a 1.2% dollar rate of return.

To calculate the dollar rate of return on the £10,000 deposit, we need to consider two factors: the interest earned in pounds and the change in the exchange rate between dollars and pounds.First, let's calculate the interest earned on the deposit. At an interest rate of 10%, the deposit would grow by 10% of £10,000, which is £1,000.

Next, we need to calculate the change in the exchange rate. The initial exchange rate is $1.50/£1.0, and it moves to $1.38/£1.0. To determine the rate of change, we divide the final rate by the initial rate: $1.38/$1.50 = 0.92.Now, we can calculate the dollar value of the deposit after one year. Multiply the initial deposit by the interest earned and then multiply that result by the exchange rate change: £10,000 + £1,000 = £11,000. £11,000 * 0.92 = $10,120.

Finally, to find the dollar rate of return, subtract the initial deposit from the final dollar value and divide by the initial deposit. ($10,120 - $10,000) / $10,000 = 0.012, or 1.2%.Therefore, the dollar rate of return on the £10,000 deposit is 1.2%.

To learn more about interest rate click here

brainly.com/question/14556630

#SPJ11

Given that `cos θ = -2/3` and `tan θ < 0`. We need to find the value of `sin θ`.Here, we are given that `cos θ = -2/3`.Therefore, `sin θ = sqrt(1 - cos² θ).

Using the given value of `cos θ`, we can substitute this value in the above equation to get:`sin θ = sqrt(1 - (2/3)²) = sqrt(1 - 4/9) = sqrt(5/9)`Now, we know that `tan θ = sin θ/cos θ`.

Let us substitute the values of `sin θ` and `cos θ` that we found above:`tan θ = sqrt(5/9) / (-2/3) = -sqrt(5/4) = -(1/2)sqrt(5)`Therefore, the exact value of `sin θ` is `sqrt(5/9)`.

To know more about cos visit :

https://brainly.com/question/30489954

#SPJ11

The area of the triangle is 6.4 square units, The area of a triangle can be calculated using the following formula Area = √(s(s - a)(s - b)(s - c))

where s is the semi-perimeter of the triangle, and a, b, and c are the sides of the triangle.

The semi-perimeter of the triangle is:

s = (a + b + c)/2 = (3.4 + 4.2 + 4.4)/2 = 4

So the area of the triangle is:

Area = √(4(4 - 3.4)(4 - 4.2)(4 - 4.4)) = √(4(0.6)(0.2)(0)) = √(0.48) = 0.69 = 6.4 (rounded to the same number of significant digits as the given sides)

The first step is to calculate the semi-perimeter of the triangle. This is done by adding the three sides of the triangle and dividing by 2.

The second step is to calculate the area of the triangle using the formula above. This involves substituting the semi-perimeter and the sides of the triangle into the formula.

The final step is to round the area to the same number of significant digits as the given sides. In this case, the area is rounded to 2 decimal places, which is 6.4 square units.

To know more about decimal click here

brainly.com/question/29775125

#SPJ11

The accumulated value of his investment at the end of the first 8 years and 11 years are 32069.76 and 38963.52 respectively. The amount of interest earned from the investment is 1363.52.

a. To calculate the accumulated value after 8 years, we can use the formula for compound interest:

A = P(1 + r/n)^(nt)

where A is the accumulated value, P is the principal amount, r is the interest rate, n is the number of times interest is compounded per year, and t is the number of years.

Plugging in the values, we have

A = 1600(1 + 0.045/2) ^(2*8)

   = 32069.76.

b. To calculate the accumulated value after 11 years, we use the same formula with the new interest rate:

A = 1600(1 + 0.068/2) ^(2*11)

   = 38963.52.

c. The amount of interest earned is the difference between the accumulated value and the total investment:

38963.52 - ($1600 * 22) = 1363.52.

Learn about Accumulated Value from the given link:

https://brainly.com/question/30964852

#SPJ11

a. The accumulated (future) value of Jesse's investment at the end of the first 8 years is $30,408.64.

b. The accumulated (future) value of Jesse's investment at the end of 11 years is $47,617.76.

c. The amount of interest earned from the investment is $12,417.76.

The future value of the investment at the end of each investment period is determined separately at different compounding interests as follows:

a) Future Value after 8 years:

N (# of periods) = 16 Semi-annual periods (8 years x 2)

I/Y (Interest per year) = 4.5%

PV (Present Value) = $0

PMT (Periodic Payment) = $1,600

Results:

Future Value (FV) after 8 years = $30,408.64

Sum of all periodic payments = $25,600.00

Total Interest = $4,808.64

b) Future Value after 11 years:

N (# of periods) = 6 Semi-annual periods (3 years x 2)

I/Y (Interest per year) = 6.8%

PV (Present Value) = $30,408.64

PMT (Periodic Payment) = $1,600

Results:

Future Value (FV) after 11 years = $47,617.76

Sum of all periodic payments = $9,600.00

Total Interest = $7,609.12

c) The total interest earned = $12,417.76 ($4,808.64 + $7,609.12)

Learn more about the future value at https://brainly.com/question/24703884.

#SPJ4

The general term of the sum of the power series is; n=0, Enxn = 5x⁻² + (9/2)x⁻¹ + ΣEnxn

Given, the power series is represented as below; n=2 Cn = = (4n+5)x¹−²+Σ2n(n + 5)x²−¹ = n=1 n=0 Enxn We have to find the general term of the sum of the power series, where the index of the sum series starts at n=0. General term of the sum of power series is given as; n=0 Enxn Since the given series starts at n = 2, we need to modify the given equation by adding the terms from n = 0 to n = 1

Hence, we can write the general term of the sum of the power series as; n=0 Enxn = E₀x⁰ + E₁x¹ + ΣEnxn Now, let's calculate the values of E₀ and E₁. For n = 0, C₀ = (4(0) + 5)x¹−² + 2(0 + 5)x²−¹ = 5x^-2 For n = 1, C₁ = (4(1) + 5)x¹−² + 2(2 + 5)x²−¹ = (9/2)x⁻¹

Therefore, the general term of the sum of the power series is;n=0 Enxn = 5x⁻² + (9/2)x⁻¹ + ΣEnxn (starting from n = 2)

Learn more about power series visit:

brainly.com/question/29896893

#SPJ11

The coordinates of the point on the plane curve described by the given parametric equations, corresponding to the value of \( t = \frac{\pi}{2} \), are \( (x, y) = (2, 6) \).

Given the parametric equations \( x = 2 + 3 \cos t \) and \( y = 4 + 2 \sin t \), we can substitute the value \( t = \frac{\pi}{2} \) to find the coordinates of the point on the curve.

For \( t = \frac{\pi}{2} \), we have:

\( x = 2 + 3 \cos \left(\frac{\pi}{2}\right) = 2 + 3 \cdot 0 = 2 \)

\( y = 4 + 2 \sin \left(\frac{\pi}{2}\right) = 4 + 2 \cdot 1 = 6 \)

Therefore, when \( t = \frac{\pi}{2} \), the coordinates of the point on the plane curve are \( (x, y) = (2, 6) \).

To learn more about parametric equations Click Here:  brainly.com/question/29275326

#SPJ11

The price elasticity of demand for good Q, with a demand function of Q = 88 - P, where P rises from $12 to $18, is approximately 0.16.



To find the price elasticity of demand (PED), we need to use the following formula:PED = (% change in quantity demanded) / (% change in price)

First, let's calculate the percentage change in quantity demanded. The initial quantity demanded (Q1) can be found by substituting the initial price (P1 = $12) into the demand equation: Q1 = 88 - 12 = 76.

The final quantity demanded (Q2) can be calculated by substituting the final price (P2 = $18) into the demand equation: Q2 = 88 - 18 = 70.Now, we can calculate the percentage change in quantity demanded:

% change in quantity demanded = (Q2 - Q1) / Q1 * 100

                                   = (70 - 76) / 76 * 100

                                   = -7.89%

Next, let's calculate the percentage change in price:

% change in price = (P2 - P1) / P1 * 100

                      = (18 - 12) / 12 * 100

                      = 50%

Now, we can calculate the price elasticity of demand:

PED = (% change in quantity demanded) / (% change in price)

       = (-7.89%) / (50%)

       ≈ -0.1578  ,  Since PED is typically expressed as an absolute value, we take the absolute value of -0.1578, which is approximately 0.16.

Therefore, the price elasticity of demand is approximately 0.16.

To learn more about percentage click here

brainly.com/question/24159063

#SPJ11

The test statistic for the given data is 2.09 for data. 2.3, 2.7, 3.4, 3.2, 2.9, 3.6, −0.3, 1.6, 3.1, 2.1, 1.5.

To calculate the test statistic, we need to compare the average inflation rate of the given data with the claim made by the politician (less than 2 percent). We can use the t-test to determine the test statistic.

Given data on inflation over the past 11 years: 2.3, 2.7, 3.4, 3.2, 2.9, 3.6, -0.3, 1.6, 3.1, 2.1, 1.5

Step 1: Calculate the average inflation rate of the given data.

Sum of the inflation rates = 2.3 + 2.7 + 3.4 + 3.2 + 2.9 + 3.6 - 0.3 + 1.6 + 3.1 + 2.1 + 1.5 = 24.1

Number of observations = 11

Average inflation rate = Sum of the inflation rates / Number of observations = 24.1 / 11 ≈ 2.19

Step 2: Calculate the standard deviation of the given data.

Subtract the average inflation rate from each individual inflation rate, square the result, sum all the squared differences, divide by (number of observations - 1), and take the square root.

Sum of squared differences = (2.3 - 2.19)² + (2.7 - 2.19)² + (3.4 - 2.19)² + (3.2 - 2.19)² + (2.9 - 2.19)² + (3.6 - 2.19)² + (-0.3 - 2.19)² + (1.6 - 2.19)² + (3.1 - 2.19)² + (2.1 - 2.19)² + (1.5 - 2.19)² = 7.1566

Standard deviation = √(Sum of squared differences / (number of observations - 1)) = √(7.1566 / (11 - 1)) ≈ 0.92

Step 3: Calculate the test statistic.

Test statistic = (Average inflation rate - Claimed inflation rate) / (Standard deviation / √(number of observations))

Claimed inflation rate = 2% = 0.02

Test statistic = (2.19 - 0.02) / (0.92 / √11) ≈ 2.09

The test statistic for the given data is approximately 2.09.

To know more about statistic, visit

https://brainly.com/question/15525560

#SPJ11

the correct option is D. The Root Test yields rho= so the series diverges by the Root Test.

The given series is: ∑ k=1
[infinity]
16 k
k 16
​Let us apply the Root Test:

lim |a_n|^{1/n} = lim |16k/k16|^{1/n}=> lim 2^{4/n} = 2^0 = 1

Since the limit of the terms is equal to 1, the Root Test yields rho=1.

Since rho = 1, the Root Test is inconclusive.

Therefore, we cannot determine if the series converges or diverges by the Root Test.

Hence, the correct option is D. The Root Test yields rho= so the series diverges by the Root Test.

To know more about  Root Test yields visit:

https://brainly.com/question/33189888

#SPJ11

The limit of the absolute value of the ratio is less than 1, we can conclude that the series ∑ k=1 (infinity) (16^k)/(k^16) converges by the Ratio Test.

To determine whether the series ∑ k=1 (infinity) (16^k)/(k^16) converges or diverges, let's analyze it using the Ratio Test.

The Ratio Test states that for a series ∑ a_k, if the limit of the absolute value of the ratio of consecutive terms, lim(k→∞) |a_(k+1)/a_k|, is less than 1, then the series converges. If the limit is greater than 1 or equal to infinity, then the series diverges. If the limit is exactly equal to 1, the Ratio Test is inconclusive.

Let's apply the Ratio Test to the given series:

|a_(k+1)/a_k| = |[(16^(k+1))/(k+1)^16] * [(k^16)/16^k]|

= (16^(k+1))/(16^k * (k+1)^16)

Simplifying:

|a_(k+1)/a_k| = (16/1) * (1/(k+1)^16)

= 16/(k+1)^16

Now, let's calculate the limit of the absolute value of the ratio as k approaches infinity

lim(k→∞) |a_(k+1)/a_k| = lim(k→∞) 16/(k+1)^16

As k approaches infinity, the denominator (k+1)^16 approaches infinity. Therefore, the limit is:

lim(k→∞) 16/(k+1)^16 = 0

Since the limit of the absolute value of the ratio is less than 1, we can conclude that the series ∑ k=1 (infinity) (16^k)/(k^16) converges by the Ratio Test.

Therefore, the correct choice is:

B. The Ratio Test yields r = 0, so the series converges by the Ratio Test.

To know more about limit, visit:

https://brainly.com/question/12207539

#SPJ11

It will take 352 minutes for the population to reach one million (1000000) organisms.

To find the time it takes for the population to reach one million, we can use the formula for exponential growth: [tex]N = N_0 * 2^{t/d}[/tex]

[tex]1000000 = 10 * 2^{t/20}\\100000 = 2^{t/20}[/tex]

Taking the logarithm:

[tex]log_2(100000) = t/20\\17.6096 = t/20\\t = 352.192\\t = 352 minutes.[/tex]

Read more about exponential

brainly.com/question/2456547

#SPJ4

It will take approximately 332.19 minutes for the population to reach one million organisms.

The doubling time of 20 minutes means that every 20 minutes, the population doubles in size.

To calculate the time it takes for the population to reach one million organisms, we can use the formula:

N = N0 * (2^(t/d))

Where:

N = Final population size (1,000,000)

N0 = Initial population size (10)

t = Time in minutes (unknown)

d = Doubling time (20 minutes)

Plugging in the values, we have:

1,000,000 = 10 * (2^(t/20))

Dividing both sides by 10, we get:

100,000 = 2^(t/20)

Taking the logarithm base 2 of both sides, we have:

log2(100,000) = t/20

Simplifying, we find:

t = 20 * log2(100,000)

Using a calculator, we can determine that log2(100,000) is approximately 16.60964.

Therefore, t ≈ 20 * 16.60964 ≈ 332.19 minutes.

So, it will take approximately 332.19 minutes for the population to reach one million organisms.

Learn more about logarithm here:

https://brainly.com/question/30340014

#SPJ11

The 95% confidence interval for the mean height of the class is [tex]\((65.42, 66.94)\)[/tex] inches.

To calculate the confidence interval, we need the sample mean, the standard deviation, and the desired level of confidence. In this case, the sample mean height is 66.18 inches and the standard deviation is 2.96 inches. The level of confidence is 95%.

Using the formula for the confidence interval, which is [tex]\(\bar{X} \pm Z \frac{\sigma}{\sqrt{n}}\), where \(\bar{X}\)[/tex] is the sample mean, [tex]\(\sigma\)[/tex] is the population standard deviation, \(n\) is the sample size, and [tex]\(Z\)[/tex] is the critical value corresponding to the desired level of confidence, we can calculate the confidence interval.

Since the sample size is 30, the critical value for a 95% confidence level is 1.96 (based on the standard normal distribution). Plugging in the values into the formula, we have:

[tex]66.18 \pm 1.96 \frac{2.96}{\sqrt{30}}[/tex]

Simplifying the expression, we find that the confidence interval for the mean height is [tex]\((65.42, 66.94)\)[/tex] inches. This means that we can be 95% confident that the true population mean height falls within this range.

Learn more about interval here:

https://brainly.com/question/29179332

#SPJ11

The determinant of matrix A is 23 and using an inverse matrix, the system of linear equations is solved as x = (1/23) [9, -10].

Given that a sequence is defined by an=7+8(n−1), for n≥1.

The above sequence is in the form of an arithmetic sequence. The general formula for the nth term of an arithmetic sequence is given by an=a1+(n−1)d where a1 is the first term and d is the common difference.

The first term, a1 is 7 and the common difference, d is 8.

The 15th term is T15=7+8(15−1)

=115.

The last term of the sequence is 599. Hence the total number of terms is n=599.

Using the formula for the sum of n terms of an arithmetic sequence:

Sn=(n2)[2a1+(n−1)d].

Here, the first term a1=7, the common difference d=8, and the total number of terms n=599.

Therefore, sum of all terms of the sequence =115(1+599)2

=34770.

The system of linear equations is:

2x1​−5x2​=9−3x1​+4x2​

=−10  

We can write this as a matrix equation Ax=b by writing the coefficient matrix and the variable matrix as follows:

2−5−34x1x2=9−10

Ax=b

The determinant of matrix A is given by

|A|=2(4)−(−3)(−5)

=23

We can find the inverse of matrix A as follows:

A−1=23 4−5−3−2

Using the inverse of matrix A, we can solve the system of equations Ax=b as follows:

A−1Ax=A−1

b⇒x=A−1

b=23 4−5−3−2 9

10=1−23

Thus, T15 is 115, the total number of terms is 599, and the sum of all the terms of the sequence is 34770.

The system of linear equations in matrix form is Ax=b where A is a coefficient matrix, x is a variable column matrix and b is a column matrix. The determinant of matrix A is 23 and using an inverse matrix, the system of linear equations is solved as x = (1/23) [9, -10].

To learn more about linear equations visit:

brainly.com/question/32634451

#SPJ11

The amounts to be received by the heirs are:

a. $6200, $1600, $1000

To divide the estate of $8800 in the ratio of 5:2:1, we first need to find the total parts of the ratio.

Total parts = 5 + 2 + 1 = 8

To find the amount each heir will receive, we divide the estate by the total parts and multiply it by the corresponding ratio:

Amount for the first heir = (5/8) * $8800

Amount for the second heir = (2/8) * $8800

Amount for the third heir = (1/8) * $8800

Simplifying:

Amount for the first heir = (5/8) * $8800 = $5500

Amount for the second heir = (2/8) * $8800 = $2200

Amount for the third heir = (1/8) * $8800 = $1100

to learn more about  corresponding ratio

https://brainly.com/question/30579013

#SPJ11

The null hypothesis states that the mean price is equal to $243,770, while the alternative hypothesis suggests that the mean price is greater than $243,770.

The null hypothesis in this scenario is that the mean price of existing homes in the neighborhood is equal to $243,770. The alternative hypothesis (Ha) is that the mean price is greater than $243,770, indicating that the broker's belief is true.
Making a Type I error means rejecting the null hypothesis when it is actually true. In this case, it would mean that the broker incorrectly concludes that the mean price of existing homes in the neighborhood is higher than $243,770, even though it is not. This error is also known as a false positive.
Making a Type II error means failing to reject the null hypothesis when it is actually false. In this situation, it would mean that the broker fails to conclude that the mean price of existing homes in the neighborhood is higher than $243,770, even though it truly is. This error is also known as a false negative.

(a) From the given answer choices, the correct option for a Type I error is C. The broker rejects the null hypothesis that the mean price is $243,770, when the true mean price is greater than $243,770.

(c) From the given answer choices, the correct option for a Type II error is A. The broker rejects the null hypothesis that the mean price is $243,770 when the true mean price is greater than $243,770.

Hypothesis testing helps to assess the broker's belief about higher home prices, and by understanding Type I and Type II errors, it enables the broker to make informed decisions regarding whether to accept or reject the null hypothesis based on the available evidence and sample data.

To know more about Type II error visit:

https://brainly.com/question/28920252

#SPJ11

i) All numbers n such that phi(n)=18 are n = 3 * 2^k or n = 2^k * 3^m, where k and m are non-negative integers.

ii) All numbers n such that phi(n)=3k are n = 3^k, where k is a positive integer.

i) To find all numbers n such that φ(n) = 18, we need to find the numbers that have exactly 18 positive integers less than n and coprime to n.

The Euler's totient function, φ(n), gives the count of positive integers less than n that are coprime to n.

To solve this problem, we can analyze the prime factorization of n. Let's consider the prime factorization of n as p1^a1 * p2^a2 * ... * pk^ak, where p1, p2, ..., pk are distinct prime numbers and a1, a2, ..., ak are positive integers.

The formula for φ(n) can be expressed as follows:
φ(n) = n * (1 - 1/p1) * (1 - 1/p2) * ... * (1 - 1/pk)

Given that φ(n) = 18, we can substitute the formula and solve for the possible values of n.

18 = n * (1 - 1/p1) * (1 - 1/p2) * ... * (1 - 1/pk)

Now, we can consider the factors of 18 and look for the possible prime factorizations of n.

18 = 2 * 3 * 3

Let's consider the prime factorizations for n in the following way:

Case 1: p1^a1 = 2^1
If we set p1 = 2, then the remaining part of the product will be equal to 3 * 3 = 9. We can check that there is no prime factorization of n that will satisfy the equation φ(n) = 18 for this case.

Case 2: p1^a1 = 3^1
If we set p1 = 3, then the remaining part of the product will be equal to 2 * 2 = 4. The possible values of n for this case are n = 3 * 2^k, where k is a non-negative integer.

Case 3: p1^a1 = 2^1 * 3^1
If we set p1 = 2 and p2 = 3, then the remaining part of the product will be equal to 1. The possible values of n for this case are n = 2^k * 3^m, where k and m are non-negative integers.

Therefore, the numbers n that satisfy φ(n) = 18 are n = 3 * 2^k or n = 2^k * 3^m, where k and m are non-negative integers.

ii) To find all numbers n such that φ(n) = 3k, we follow a similar approach as in part i.

Let's consider the prime factorization of n as p1^a1 * p2^a2 * ... * pk^ak, where p1, p2, ..., pk are distinct prime numbers and a1, a2, ..., ak are positive integers.

The formula for φ(n) can be expressed as follows:
φ(n) = n * (1 - 1/p1) * (1 - 1/p2) * ... * (1 - 1/pk)

Given that φ(n) = 3k, we can substitute the formula and solve for the possible values of n.

3k = n * (1 - 1/p1) * (1 - 1/p2) * ... * (1 - 1/pk)

Now, we can consider the factors of 3k and look for the possible prime factorizations of n.

Let's consider the prime factorizations for n in the following way:

Case 1: p1^a1 = 3^1
If we set p1 = 3, then the remaining part of the product will be equal to 1. The possible values of n for this case are n = 3^k, where k is a positive integer.

Case 2: p1^a1 = 3^1 * p2^1
If we set p1 = 3 and p2 be another prime, then the remaining part of the product will be equal to 2. There is no prime factorization of n that will satisfy the equation φ(n) = 3k for this case.

Therefore, the numbers n that satisfy φ(n) = 3k are n = 3^k, where k is a positive integer.

To know more about Euler's totient function refer here:

https://brainly.com/question/33326204

#SPJ11

Part 1: Operations of Functions

1. Given f(x) = x² + 7x + 12 and g(x) = x² - 9, we can perform the operations as follows:

(a) (f + g)(x):

(f + g)(x) = f(x) + g(x)

          = (x² + 7x + 12) + (x² - 9)

          = 2x² + 7x + 3

(b) (f - g)(x):

(f - g)(x) = f(x) - g(x)

          = (x² + 7x + 12) - (x² - 9)

          = 16x + 21

(c) (-9)(x):

(-9)(x) = -9x

(d) ((x):

((x) is not specified. Please provide the correct function to perform the operation.

2. Given f(x) = 2x + 1 and g(x) = x - 3, we can perform the operations as follows:

(a) (f + g)(x):

(f + g)(x) = f(x) + g(x)

          = (2x + 1) + (x - 3)

          = 3x - 2

(b) (f - g)(x):

(f - g)(x) = f(x) - g(x)

          = (2x + 1) - (x - 3)

          = x + 4

(c) (f * g)(x):

(f * g)(x) is not specified. Please provide the correct operation to perform.

(d) ()(x) is not specified. Please provide the correct function to perform the operation.

Part 2: Compositions of Functions

3. Given f(x) = x², g(x) = 5x, and h(x) = x + 4, we can find the value of f[h(-9)] as follows:

f[h(-9)] = f(-9 + 4) = f(-5) = (-5)² = 25

4. Given f(x) = x², g(x) = 5x, and h(x) = x + 4, we can find the value of h∘f(4) as follows:

h∘f(4) = h(f(4)) = h(4²) = h(16) = 16 + 4 = 20

5. Given f(x) = x², g(x) = 5x, and h(x) = x + 4, we can find the value of g[h(-2)] as follows:

g[h(-2)] = g(-2 + 4) = g(2) = 5(2) = 10

6. The formula f = converts inches n to feet f, and m = 5280 converts feet to miles m. The composition of functions that converts inches to miles can be written as m∘f, where m is applied first and then f.

m∘f(n) = m(f(n)) = m(n/12) = n/(12*5280)

Part 3: Inverses of Functions

7. Given f = {(-4,-5), (0,3), (1,6)} and g = {(6,1), (-5,0), (3,-4)}, we can find fg and g∘f, if they exist.

(a) fg:

To find fg, we need to perform the composition of functions fg(x) = f(g(x)).

fg(x) = f(g(x)) = f(1

) = 6

(b) g∘f:

To find g∘f, we need to perform the composition of functions g∘f(x) = g(f(x)).

g∘f(x) = g(f(x)) = g(x²) is not defined since there is no mapping for x² in g.

8. Given g(x) = x + 6 and h(x) = 3x², we can find [gh](x) and [hg](x), if they exist.

(a) [gh](x):

To find [gh](x), we need to perform the composition of functions [gh](x) = g(h(x)).

[gh](x) = g(h(x)) = g(3x²) = 3x² + 6

(b) [hg](x):

To find [hg](x), we need to perform the composition of functions [hg](x) = h(g(x)).

[hg](x) = h(g(x)) = h(x + 6) = 3(x + 6)² = 3(x² + 12x + 36) = 3x² + 36x + 108

9. To find the inverse of the relation {(-5,-4), (1,2), (3,4), (7,8)}, we need to swap the x and y values to obtain the inverse relation:

Inverse relation: {(-4,-5), (2,1), (4,3), (8,7)}

10. To find the inverse of the function g(x) = 3 + x, we need to interchange x and y and solve for y:

y = 3 + x

Interchanging x and y:

x = 3 + y

Solving for y:

y = x - 3

The inverse function of g(x) = 3 + x is g^(-1)(x) = x - 3.

Graphically, the function g(x) = 3 + x and its inverse g^(-1)(x) = x - 3 can be represented by plotting the points and reflecting them across the line y = x.

To know more about interchange, refer here:

https://brainly.com/question/31846321

#SPJ11

According to given information, coordinates of p(x) relative to this basis [tex][p(x)]B = [(39/31)x^2 + (252/155)x - (592/31)] + [(-504/155)x + (504/155)] + [(120/31)x - (240/31)][/tex]

The set B = {x^2−2,4x^2−(8+3x),15x^2−(28+9x)} is a basis for P2.

[tex]p(x) = 43x^2-(78+24x)[/tex] is a polynomial of degree 2.

To find the coordinates of p(x) relative to this basis, let's use the linear combination method;

[p(x)]B = α1B1 + α2B2 + α3B3Where α1, α2 and α3 are scalars or constants, and B1, B2 and B3 are basis vectors.

To find the scalars α1, α2 and α3, we can solve the system of linear equations obtained by equating the coefficients of p(x) to the linear combination of the basis vectors.

∴ [tex]43x^2 - (78 + 24x) = a1 (x^2 - 2) + a2 (4x^2 - (8 + 3x)) + a3 (15x^2 - (28 + 9x))[/tex]

[tex]43x^2 - 78 - 24x = a1 x^2 - 2α1 + a2 (4x^2 - 8 - 3x) + a3 (15x^2 - 28 - 9x)[/tex]

[tex]43x^2 - 78 - 24x = a1x^2 - 2α1 + a2(4x^2 - 3x - 8) + a3(15x^2 - 9x - 28)[/tex]

Matching the coefficients of x^2, x and constants,

[tex]a1 + 4a2 + 15a3 = 43\\a1 -3a2 - 9a3 = 0-2\\a1- 8a2 - 28a3 = -78[/tex]

Solving the above system of equations, we get,

[tex]a1 = 39/31\\a2 = 63/155\\a3 = 8/31[/tex]

Therefore, [tex][p(x)]B = (39/31)(x^2 - 2) + (63/155)(4x^2 - (8 + 3x)) + (8/31)(15x^2 - (28 + 9x))\\=[(39/31)x^2 + (252/155)x - (592/31)] + [(-504/155)x + (504/155)] + [(120/31)x - (240/31)][/tex]

Now, [tex][p(x)]B = [(39/31)x^2 + (252/155)x - (592/31)] + [(-504/155)x + (504/155)] + [(120/31)x - (240/31)][/tex]

To know more about coordinates, visit:

https://brainly.com/question/32836021

#SPJ11

Based on the analysis, we can conclude that the given relation R is transitive only.

The given relation R on the set of integers Z is R={(e,f)∣e+f≤3}.

Let us check its properties:

Reflexive property: A relation R on set A is said to be reflexive if (a, a) ∈ R for every a ∈ A. Here, (1, 1) ∉ R because 1 + 1 > 3. Thus, R is not reflexive.

Symmetric property: A relation R on set A is said to be symmetric if (a, b) ∈ R, then (b, a) ∈ R for every a, b ∈ A. Here, let us take (1, 2) ∈ R. But (2, 1) ∉ R because 2 + 1 > 3. Thus, R is not symmetric.

Transitive property: A relation R on set A is said to be transitive if (a, b) ∈ R and (b, c) ∈ R, then (a, c) ∈ R for every a, b, c ∈ A.

Here, let us take (1, 2) ∈ R and (2, 3) ∈ R. Then, we have (1, 3) ∈ R because 1 + 2 + 3 ≤ 3. Thus, R is transitive.

Based on the above analysis, we can conclude that the given relation R is transitive only.

Learn more about relation visit:

brainly.com/question/31111483

#SPJ11

(a) The probability that the sample will have between 29% and 41% of companies in Country A with three or more female board directors is approximately 0.7721.

(b) The symmetrical limits of the population percentage within which the sample percentage will be contained with a probability of 70% are approximately 31.2% and 40.8%.

(c) The symmetrical limits of the population percentage within which the sample percentage will be contained with a probability of 99.7% are approximately 20.0% and 52.0%.

(a) To find the probability that the sample will have between 29% and 41% of companies in Country A with three or more female board directors, we need to calculate the probability of the sample proportion falling within this range.

The sample proportion follows a normal distribution with a mean of the population proportion (36%) and a standard deviation given by the formula: sqrt[(p * (1 - p)) / n], where p is the population proportion and n is the sample size.

Using the given information, we have p = 0.36 and n = 100.

Standard deviation = sqrt[(0.36 * (1 - 0.36)) / 100] ≈ 0.0488

Now we can calculate the z-scores for the lower and upper bounds of the range:

Lower z-score = (0.29 - 0.36) / 0.0488 ≈ -1.43

Upper z-score = (0.41 - 0.36) / 0.0488 ≈ 1.03

Using a standard normal distribution table or a calculator, we find the corresponding cumulative probabilities for these z-scores:

Lower cumulative probability = 0.0764

Upper cumulative probability = 0.8485

To find the probability between 29% and 41%, we subtract the lower cumulative probability from the upper cumulative probability:

Probability = 0.8485 - 0.0764 ≈ 0.7721

Rounding to four decimal places, the probability that the sample will have between 29% and 41% of companies in Country A with three or more female board directors is approximately 0.7721.

(b) To find the symmetrical limits of the population percentage within which the sample percentage will be contained with a probability of 70%, we can calculate the z-score corresponding to a cumulative probability of 0.85 (since we want the central 70% of the distribution).

Using a standard normal distribution table or a calculator, we find the z-score associated with a cumulative probability of 0.85 is approximately 1.0364.

The symmetrical limits are calculated as follows:

Lower limit = population percentage - (z-score * standard deviation)

Upper limit = population percentage + (z-score * standard deviation)

Given the population percentage is 36% and the standard deviation is 0.0488, we can substitute these values into the equations:

Lower limit = 0.36 - (1.0364 * 0.0488) ≈ 0.3117

Upper limit = 0.36 + (1.0364 * 0.0488) ≈ 0.4083

Rounding to one decimal place, the symmetrical limits of the population percentage within which the sample percentage will be contained with a probability of 70% are approximately 31.2% and 40.8%.

(c) To find the symmetrical limits of the population percentage within which the sample percentage will be contained with a probability of 99.7%, we can calculate the z-score corresponding to a cumulative probability of 0.997 (since we want the central 99.7% of the distribution).

Using a standard normal distribution table or a calculator, we find the z-score associated with a cumulative probability of 0.997 is approximately 2.9677.

Substituting the values into the equations:

Lower limit = 0.36 - (2.9677 * 0.0488) ≈ 0.1999

Upper limit = 0.36 + (2.9677 * 0.0488) ≈ 0.5201

Rounding to one decimal place, the symmetrical limits of the population percentage within which the sample percentage will be contained with a probability of 99.7% are approximately 20.0% and 52.0%.

To learn more about probability visit : https://brainly.com/question/13604758

#SPJ11

The reference angle for q = 7π/5 is -2π/5 radians.

To find the reference angle for an angle q given in radians, we need to determine the acute angle formed between the terminal side of q and the x-axis.

In this case, we are given q = 7π/5.

First, let's identify the quadrant in which the terminal side of q lies. To do this, we can compare the value of q to the angle measures of the quadrantal angles (0°, 90°, 180°, 270°, 360°) or the special angles in radians (0, π/2, π, 3π/2, 2π).

Since 7π/5 is greater than π (180°) but less than 3π/2 (270°), we can conclude that the terminal side of q lies in the third quadrant.

To find the reference angle, we consider the distance between the terminal side and the x-axis, measured in a counterclockwise direction.

The reference angle is formed by the terminal side and a line parallel to the x-axis that passes through the nearest x-axis intersection point (also known as the x-intercept) of the terminal side.

Since the terminal side of q lies in the third quadrant, the x-intercept is to the left of the origin.

To calculate the reference angle, we can subtract the absolute value of q from π (180°):

Reference angle = π - |q| = π - |7π/5| = π - (7π/5) = 5π/5 - 7π/5 = -2π/5

Given the angle q = 7π/5, we can determine the reference angle by finding the acute angle formed between the terminal side of q and the x-axis. By identifying the quadrant in which the terminal side lies, we establish that it is in the third quadrant. Subtracting the absolute value of q from π (180°), we find that the reference angle is -2π/5 radians.

For more such question on angle. visit :

https://brainly.com/question/31615777

#SPJ8

The formula for the arc length of the function f(x) in the interval [a, b] is given by the formula,

L = ∫a^b sqrt[1 + (f '(x))^2]dx

Given the function, y= 3/2 (x-1)^(3/2),

the derivative is given by, y' = (3/2) * (3/2) * (x - 1)^(1/2) = (9/4)(x - 1)^(1/2).

Substitute the derivative in the formula to obtain the arc length as,

L = ∫1^4 sqrt[1 + (9/4(x - 1)^(1/2))^2]dxL = ∫1^4 sqrt[1 + 81/16(x - 1)]dxL = ∫1^4 sqrt[(81x + 13)/16]dx

Using the substitution, u = 81x + 13, du = 81dx, the limits change to u(1) = 94, u(4) = 337

Therefore, the integral is,∫(94/16)^(337/16) sqrt(u)/81 du = (16/81)[(2/3)u^(3/2)](94/337) = 8/27 (337^(3/2) - 94^(3/2))

The arc length in decimal approximation is given by,8/27 (337^(3/2) - 94^(3/2)) = 55.632 (approx.)

Therefore, the exact arc length is 8/27 (337^(3/2) - 94^(3/2)) and the decimal approximation is 55.632.

Hence, the required answer is "Compute the arc length of the graph of y= 3/2 (x-1)^(3/2),1≤x≤4.

Provide answer in exact form and as a decimal approximation." is 8/27 (337^(3/2) - 94^(3/2)) and 55.632 respectively.

To know more about arc length visit:

https://brainly.com/question/32035879

#SPJ11