according to the reading, how many minutes should a walk be from the home to the ordinary needs of daily life? back to the future

The given differential equation is dP/dt - 0.05P = 15. Solving this first-order linear differential equation, we get P(t) = Ce^(0.05t) + 300, where C is a constant of integration. Since P(0) = 1300, we have C = 1300 - 300 = 1000. Therefore, the solution to the differential equation is P(t) = 1000e^(0.05t) + 300.

Substituting t = 6 into this expression for P(t), we find that the future value of the account at time t = 6 is approximately P(6) = 1000e^(0.05 * 6) + 300 ≈ $1,349.86.

So the future value of this account at time t = 6 is approximately $1,349.86.

The two values of [tex]\theta[/tex] in [tex][0.2\pi)[/tex] such that cos([tex]\theta[/tex]) = 5/17 are approximately 0.915 radians and 0.533 radians.

To find two values of [tex]\theta[/tex] in [tex][0.2\pi)[/tex] such that [tex]cos(\theta)[/tex] = 5/17, we can use inverse trigonometric functions. Specifically, we will use the arccosine function ([tex]cos^{-1[/tex]) to solve for [tex]\theta[/tex].

First, we need to recognize that cos([tex]\theta[/tex]) = adjacent/hypotenuse. Therefore, if [tex]cos(\theta)[/tex] = 5/17, we can draw a right triangle with the adjacent side equal to 5 and the hypotenuse equal to 17.

Using the Pythagorean theorem, we can solve for the opposite side of the triangle. It turns out that the opposite side is equal to [tex]\sqrt(17^2 - 5^2)[/tex] = 16.

Now we have all three sides of the triangle and we can use trigonometry to find the two possible values of [tex]\theta[/tex]. Using the arccosine function, we can solve for the angle [tex]\theta[/tex]:

[tex]\theta[/tex] = [tex]cos^{-1}(5/17)[/tex] = 1.184 radians (rounded to three decimal places)

However, since we are looking for two values of [tex]\theta[/tex] in [tex][0.2\pi)[/tex], we need to add [tex]2\pi[/tex] to this result until we get a value within the specified range:
[tex][0.2\pi)[/tex]
This value is not within the specified range of [tex][0.2\pi)[/tex], so we subtract [tex]2\pi[/tex] until we get a value within the range:

[tex]\theta[/tex] = 7.036 - [tex]2\pi[/tex] = 0.915 radians (rounded to three decimal places)

Therefore, the first value of [tex]\theta[/tex]  such that cos([tex]\theta[/tex] ) = 5/17 in [tex][0.2\pi)[/tex] is approximately 0.915 radians.

To find the second value of [tex]\theta[/tex], we need to use the symmetry of the cosine function. Since cos( [tex]\theta[/tex]) = cos(- [tex]\theta[/tex]), we can solve for the negative angle that has the same cosine value:

[tex]\theta[/tex] = -[tex]cos^{-1}(5/17)[/tex] = -1.184 radians (rounded to three decimal places)

Again, we need to add and subtract [tex]2\pi[/tex] until we get a value within the specified range:

[tex]\theta[/tex] = -1.184 + [tex]2\pi[/tex] = 5.159 radians (rounded to three decimal places)

[tex]\theta[/tex] = 5.159 - [tex]2\pi[/tex] = 0.533 radians (rounded to three decimal places)

Therefore, the second value of [tex]\theta[/tex] such that cos( [tex]\theta[/tex]) = 5/17 in [tex][0.2\pi)[/tex] is approximately 0.533 radians.

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The line integral of F along C is π - (1/2).

We can evaluate the line integral using the formula:

∫CF.dr = ∫ab F(r(t)).r'(t) dt

where a and b are the limits of the parameter t that traces out the curve C.

First, we need to compute r'(t):

r'(t) = cos(t) i - sin(t) j + k

Next, we need to compute F(r(t)):

F(r(t)) = sin(t) i + cos(t) j + sin(t)cos(t) k

Now, we can set up the integral:

∫CF.dr = ∫0π F(r(t)).r'(t) dt

= ∫0π (sin(t) i + cos(t) j + sin(t)cos(t) k) · (cos(t) i - sin(t) j + k) dt

= ∫0π (sin(t)cos(t) + 1) dt

= [-(1/2)cos2(t) + t] from 0 to π

= π - (1/2)

Therefore, the line integral of F along C is π - (1/2).

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The McNemar's Test can be thought of as the chi-square type equivalent to the paired t-test.

The McNemar's Test is a non-parametric statistical method used to analyze the differences between paired or matched categorical data, such as repeated measurements on a single group. Like the paired t-test, which is used to compare continuous data, the McNemar's Test evaluates the changes in the proportions of success or failure between the paired observations.

This test is particularly useful when dealing with small sample sizes or when the assumptions of normality and homogeneity of variances required for the paired t-test are not met. By using the chi-square distribution, McNemar's Test provides a way to determine the significance of the differences between paired categorical data, while accounting for the dependency between the observations.

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To minimize the distance between two adjacent pentagons. Rounded to seven decimal places, the smallest nonzero distance between two of the pentagons is approximately 1.618034.

We should arrange them in a regular dodecagon pattern with each vertex of the dodecagon touching the center of one of the pentagons. To see why this is the optimal arrangement, we can consider the fact that the regular dodecagon is the polygon with the most vertices (12) that can be inscribed in a circle. Since the pentagon has five sides, we can't fit a regular pentagon pattern into a circle without leaving some gaps between the pentagons. However, we can fit a regular dodecagon pattern without any gaps.

Since there are 12 vertices in the regular dodecagon pattern, and we have 17 pentagons, there will be 5 pentagons in the center of the pattern that are adjacent to two other pentagons. These 5 pentagons will have a distance of 0 between them.

The remaining 12 pentagons will be arranged around the perimeter of the dodecagon, with each pentagon adjacent to two others. The distance between adjacent pentagons in this arrangement can be found by dividing the circumference of the dodecagon by 12. The circumference of a regular dodecagon with side length s is: C = 12s

Since the side length of the dodecagon is equal to the distance between adjacent pentagons, we can divide the circumference by 12 to get:

[tex]s = C/12[/tex]

[tex]s = (12s)/12[/tex]

[tex]s = s[/tex]

So the distance between adjacent pentagons is equal to the side length of the regular dodecagon, which is:[tex]s = (1/2) * (1 + √5) * a[/tex]

where a is the side length of the pentagon.

Plugging in a = 1, we get:

[tex]s = (1/2) * (1 + \sqrt{5} )[/tex]

[tex]s= 1.618034[/tex]

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To find the limit of the given function limz+7 3: V2+2 21 O (E) O 7 O 3 09, we need to substitute z+7 into the function and simplify it.

limz+7 3: V2+2 21 O (E) O 7 O 3 09 = limz→-7 V2+2 21 O (E) O 7 O 3 09

Now, we can simplify the function by rationalizing the numerator:

limz→-7 V2+2 21 O (E) O 7 O 3 09 = limz→-7 (V2+2 21 O (E) O 7 O 3 09) * (V2+2 21 O (E) O 7 O 3 09) / (V2+2 21 O (E) O 7 O 3 09) = limz→-7 (4z+28) / (V2+2z+49)

Now, we can substitute z=-7 into the function: limz→-7 (4z+28) / (V2+2z+49) = (4(-7)+28) / (V2+2(-7)+49) = 0 / 47
= 0
Therefore, the limit of the given function is 0.

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Answer:

(x-3)^2-2

Step-by-step explanation:

Answer:

To rewrite the quadratic expression x^2 - 6x + 7 by completing the square, we need to follow these steps:

Take the coefficient of the x-term, which is -6, and divide it by 2. This gives us -3.

Square the result from step 1, which gives us 9.

Add and subtract the value obtained in step 2 to the quadratic expression, like this:

x^2 - 6x + 7 + 9 - 9

Group the first three terms and the last two terms separately and factor out the common factor from the first group:

(x^2 - 6x + 9) + (7 - 9)

Simplify the terms inside the brackets:

(x - 3)^2 - 2

Therefore, the expression x^2 - 6x + 7 can be rewritten as (x - 3)^2 - 2, which is in vertex form. The vertex of the parabola represented by this quadratic expression is (3, -2).

The goal is to find the values of a, b, and c that satisfy these equations, representing the number of 100-lb bags of each grade of fertilizer that Lawnco should produce.

Lawnco needs to produce a certain number of bags of grade A, grade B, and grade C fertilizers to meet the nutrient requirements with the given amounts of nitrogen, phosphate, and potassium. The number of bags produced for each grade of fertilizer is denoted by a, b, and c respectively. The nutrient composition of each grade of fertilizer in terms of nitrogen, phosphate, and potassium is also given. By using this information and the nutrient requirements, we can set up the following system of equations:
16a + 20b + 24c = 26200  (for nitrogen)
6a + 4b + 3c = 4700  (for phosphate)
7a + 4b + 6c = 6600  (for potassium)
We can solve this system of equations to find the values of a, b, and c that satisfy all three equations simultaneously.

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Volume of the prism in cubic meters is given as 350 cm

The formula is given as 1 / 2 l * h * w

we have to define the variables

l = length = 5 m

h = heigt = 17. 5 m

w = width = 8 m

From the formula we have to put in the variables

1 / 2 x 5m * 17.5 m * 8m

= 1/ 2 x 700 m

= 700m / 2

= 350

Hence the volume of the prism in cubic meters is given as 350 cm

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There are 54.5 centiliters of paint in the mixture.

To find the total amount of paint in the mixture, we need to convert the volumes of red and blue paint from liters to centiliters, since white paint is already given in centiliters.

0.25 liter of red paint is equal to 25 centiliters (since 1 liter = 100 centiliters)

0.25 liter of blue paint is equal to 25 centiliters

So the total amount of paint in the mixture is:

25 centiliters (red paint) + 25 centiliters (blue paint) + 4.5 centiliters (white paint)

= 54.5 centiliters

Therefore, there are 54.5 centiliters of paint in the mixture Iris made to make violet paint.

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The linear function for this problem is given as follows:

C(t) = 65t + 135.

The slope-intercept representation of a linear function is given by the equation presented as follows:

y = mx + b

The coefficients of the function and their meaning are described as follows:

Two points on the graph of the linear function are given as follows:

(3, 330) and (5, 460).

Hence the slope is given as follows:

m = (460 - 330)/(5 - 3)

m = 65.

Hence the equation is:

C(t) = 65t + b.

When t = 3, C(t) = 330, hence the intercept b is obtained as follows:

330 = 65(3) + b

b = 330 - 65 x 3

b = 135.

Thus the function is:

C(t) = 65t + 135.

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The graph of each function is given below.

When they are the same height, the height of the snowman is 15 inches.

Initial height of snowman A = 36 inches

At sunrise, Snowman A's height decrease by 3 inches per hour.

Slope = 3

Function can be represented as.

A(t) = 36 - 3t

Initial height of snowman B = 57 inches

At sunrise, Snowman B's height decrease by 6 inches per hour.

Slope = 6

Function can be represented as.

B(t) = 57 - 6t

Graph of each function will be a line.

The height of the two snowmen will be equal after,

36 - 3t = 57 - 6t

3t = 21

t = 7 hours

Height = 36 - (3 × 7) = 15 inches

Hence the height of each snowmen is 15 inches after 7 hours.

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There are 1 student who is fewer students walk to school in Class A than in Class B

In mathematics, a graph is a visual representation of data that displays the relationship between two variables. The two variables are typically shown on the x-axis and y-axis, respectively. Graphs are used to represent various types of data such as numerical, categorical, and qualitative data.

Now, coming to the picture graph that you are analyzing, it represents the number of students in Class A and Class B who walk to school. The graph displays the information using pictures, which are used to represent the number of students.

Therefore, to find the answer, count the number of pictures in the bar representing Class A, and count the number of pictures in the bar representing Class B. Subtract the number of pictures in Class A from the number of pictures in Class B to find the number of fewer students in Class A.

Then we get,

=> 1 - 0 = 1.

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The  second order partial derivatives of f(x.y) = e^-x^2y^3 are

To find the second-order partial derivatives of f(x,y) = e^(-x^2y^3), we need to differentiate the function twice with respect to each variable.

First, we find the first-order partial derivatives:

f(x) = -2xy^3 e^(-x^2y^3)

f(y) = -3x^2y^2 e^(-x^2y^3)

Now, we can differentiate these partial derivatives again to find the second-order partial derivatives:

f(xx) = (-2y^3 + 4x^2y^6) e^(-x^2y^3)

f(xy) = (-6xy^5 + 12x^3y^4) e^(-x^2y^3)

f(yx) = (-6xy^5 + 12x^3y^4) e^(-x^2y^3)

f(yy) = (-6x^2y^4 + 9x^4y^2) e^(-x^2y^3)

Therefore, the second-order partial derivatives of f(x,y) are:

f(xx) = (-2y^3 + 4x^2y^6) e^(-x^2y^3)

f(xy) = (-6xy^5 + 12x^3y^4) e^(-x^2y^3)

f(yx) = (-6xy^5 + 12x^3y^4) e^(-x^2y^3)

f(yy) = (-6x^2y^4 + 9x^4y^2) e^(-x^2y^3)

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The standard deviation of the given data is approximately 288.9

To find the standard deviation of the given data, we will use the following terms: x-values (77, 88, 99, 1010, 1111), and the corresponding probabilities P(X=x) (0.1, 0.1, 0.2, 0.2, 0.4).

First, we need to calculate the mean (µ) of the data using the formula: µ = Σ[x * P(X=x)]

µ = (77 * 0.1) + (88 * 0.1) + (99 * 0.2) + (1010 * 0.2) + (1111 * 0.4) = 975.8

Next, we'll find the variance (σ²) using the formula: σ² = Σ[(x - µ)² * P(X=x)]

σ² = ((77 - 975.8)² * 0.1) + ((88 - 975.8)² * 0.1) + ((99 - 975.8)² * 0.2) + ((1010 - 975.8)² * 0.2) + ((1111 - 975.8)² * 0.4) ≈ 83464.36

Now, to find the standard deviation (σ), take the square root of the variance:

σ = √83464.36 ≈ 288.9

So, the standard deviation of the given data is approximately 288.9 (rounded to one decimal place).

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Complete question:

Find the standard deviation of the following data. Round your answer to one decimal place.

x                      77       88        99      1010      1111

P(X=x)P(X=x) 0.10.1 0.10.1 0.20.2 0.20.2 0.40.4

The area of the circle is also equal to the area of the parallelogram which is πr².

A = bh is the formula for calculating the area of a parallelogram, where A stands for the area, b for the base, and h for the height. In this case, the base of the parallelogram is πr and the height is r. So, the area of the parallelogram is:

A = (πr) × r

A = πr²

The formula for the area of a circle is A = πr².

The two formulas can be set equal to one another because the area of the parallelogram and the area of the circle are equal.

πr² = πr²

This confirms that the area of the circle is also equal to πr².

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Answer:

8(9)(12) + (1/2)(8)(3)(12) = 864 + 144

= 1,008 cubic feet

The answer is -17.  To find the derivative of a function, we use calculus. The derivative tells us the rate at which the function is changing at any given point. In this particular problem, we were asked to find t'(-4) if f(x) = 3x^2 + 7x + 1. We first found the derivative of f(x) using the power rule, which is a basic rule in calculus.

The power rule states that the derivative of x^n is nx^(n-1). Using this rule, we found that f'(x) = 6x + 7. To find t'(-4), we simply plugged in -4 for x in the equation for f'(x). The final answer we obtained was -17, which tells us the rate at which f(x) is changing at the point x = -4. Calculus is an important branch of mathematics that has many practical applications in fields such as physics, engineering, and economics. It allows us to understand how things change over time and how we can optimize various systems.

To find t'(-4), we need to first find the derivative of f(x).

f(x) = 3x^2 + 7x + 1

To find the derivative of f(x), we use the power rule:

f'(x) = 6x + 7

Now we can plug in -4 for x to find t'(-4):

t'(-4) = f'(-4)

t'(-4) = 6(-4) + 7

t'(-4) = -17

Therefore, the answer is -17.

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The prisoner's dilemma is a classic example of a noncooperative game. This means that the players involved are not working together to achieve a common goal,

But rather competing against each other to achieve their own individual goals. The lack of cooperation means that there is no communication between the players. This lack of communication can lead to inferior results for both players. In the prisoner's dilemma, both players are incentivized to defect and betray the other player,

which ultimately leads to a worse outcome for both parties involved. The game is also a simultaneous game, meaning that both players make their decisions at the same time, rather than sequentially.

Overall, the prisoner's dilemma is a powerful demonstration of the challenges that can arise in noncooperative situations and the importance of communication and cooperation in achieving optimal outputs.

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Answer: Assuming a work week is 5 days the worker has to make 328 bolts on Friday

Step-by-step explanation:

1357-1029=328

Sandra can make 48 sandwiches with the given ingredients of 72 slices of turkey, 48 slices of cheese, and 96 pieces of lettuce.

To determine the maximum number of sandwiches that Sandra can make, we need to find the bottleneck ingredient. This means we need to figure out how many sandwiches she can make with the least common multiple amount of any of the three fillings.

Each sandwich requires one slice of turkey, one slice of cheese, and two pieces of lettuce. Therefore, the bottleneck ingredient is the cheese, which she only has 48 slices of cheese . Since she has enough turkey and lettuce for more sandwiches, she can make a maximum of 48 sandwiches with the available cheese. Each of these sandwiches will have one slice of turkey, one slice of cheese, and two pieces of lettuce. Hence, Sandra can make 48 sandwiches with the given ingredients.

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Let's calculate E(Z^3), which is the third moment of Z, given that Z follows a standard normal distribution N(0, 1) and X follows a normal distribution N(μ, σ^2).

First, recall that the third moment of a random variable, E(Z^3), represents the expected value of the cube of Z. In this case, Z is a standard normal random variable, which has a symmetric probability density function (PDF) about the mean 0.

To calculate E(Z^3), we can use the formula:

E(Z^3) = ∫ z^3 * f(z) dz

where f(z) is the PDF of the standard normal distribution, and the integral is taken from negative infinity to positive infinity.

Since the PDF of Z is symmetric about the mean 0, the values of z^3 * f(z) will be positive for positive z values and negative for negative z values. These positive and negative values will cancel each other out when integrating over the entire range of Z, resulting in E(Z^3) = 0.

In summary, the third moment of Z, E(Z^3), for a standard normal random variable Z is 0 due to the symmetry of the PDF about the mean 0.

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False. The graphical method is only suitable for linear programming problems with two decision variables. For problems with more than two variables, programming techniques such as the simplex method are used.

Variables play a crucial role in both graphical and programming methods as they represent the unknown quantities in the problem.

True, the graphical method can be used to solve linear programming problems with four decision variables. However, it may be more challenging and less efficient compared to other methods, such as the simplex method, when dealing with a higher number of variables.

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The problem presents a scenario where a round window is to be placed into a square frame, and the circumference of the window is given.

The question asks for the length of each side of the square frame. The answer choices are 4 ft, 8 ft, 2 ft, and 16 ft.

To solve the problem, we need to know the relationship between the circumference of a circle and its diameter. The circumference is the distance around the circle, and it is equal to pi times the diameter, where pi is a constant approximately equal to 3.14. So, if we know the circumference, we can find the diameter, and from that, we can determine the length of each side of the square frame.

To find the diameter of the circle, we need to divide the circumference by pi. The circumference given in the problem is not in a numerical form, so we cannot directly compute the diameter. However, we can still determine the length of each side of the square frame by using a geometric property of a circle inscribed in a square.

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Answer:

4ft

Step-by-step explanation:

The evaluation of integral (2x-5) ln(2x-5) with respect to x gives the result (x^2 - 5x + C) ln(2x-5) - ∫(x^2 - 5x + C)(2/(2x-5)) dx.

To evaluate the integral of (2x-5) ln(2x-5) with respect to x, we will use integration by parts. Integration by parts formula is ∫u dv = uv - ∫v du, where u and dv are functions of x.

Choose u and dv.
Let u = ln(2x-5) and dv = (2x-5) dx.

Find du and v.
To find du, differentiate u with respect to x: du = (1/(2x-5)) * 2 dx = (2/(2x-5)) dx.
To find v, integrate dv with respect to x: v = ∫(2x-5) dx = x^2 - 5x + C.

Apply the integration by parts formula.
∫(2x-5) ln(2x-5) dx

= uv - ∫v du

= (x^2 - 5x + C) ln(2x-5) - ∫(x^2 - 5x + C)(2/(2x-5)) dx.

The integral of (2x-5) ln(2x-5) with respect to x gives (x^2 - 5x + C) ln(2x-5) - ∫(x^2 - 5x + C)(2/(2x-5)) dx.

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Answer:

Z= 0.00 or Z= -8.00

Step-by-step explanation:

A point estimate is the difference between a sample mean and a population mean, while the standard error of the mean is a measure of the variability between the two.

The difference between a sample mean and a population mean is known as a point estimate. A sample mean is the average of a group of observations taken from a larger population, while a population mean is the average of all observations in the entire population. A sample is a subset of the population that is selected for analysis, while the population is the entire group that is being studied. To make inferences about a population from a sample, researchers use point estimates, which are calculated from the sample data and used to estimate the population parameter. The point estimate is a single value that represents the best guess of the population mean based on the available sample data. The standard error of the mean is a measure of how much variability exists in the sample mean compared to the population mean. It reflects the amount of sampling error that can be expected when estimating the population mean from the sample mean.

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The probability of selecting three red ribbons at random from the basket is approximately 2.27%.

In order to calculate the probability of selecting three red ribbons from a basket containing 9 blue, 7 red, and 6 white ribbons, we need to use the concept of combinations.

A combination represents the number of ways to choose items from a larger set without considering the order.

First, let's determine the total number of ways to choose 3 ribbons from the 22 ribbons in the basket (9 blue + 7 red + 6 white). This can be calculated using the combination formula: C(n, k) = n! / (k!(n-k)!), where n is the total number of items and k is the number of items to choose. In this case, n = 22 and k = 3. So, C(22, 3) = 22! / (3!(22-3)!) = 22! / (3!19!) = 1540 possible combinations.

Now, let's find the number of ways to choose 3 red ribbons from the 7 red ribbons available. Using the combination formula again, C(7, 3) = 7! / (3!(7-3)!) = 7! / (3!4!) = 35 combinations.

Finally, to calculate the probability of choosing three red ribbons, we'll divide the number of ways to choose 3 red ribbons by the total number of ways to choose any 3 ribbons: Probability = 35/1540 ≈ 0.0227, or approximately 2.27%.

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The matching of expressions is 3/4(24s + 8) → 18s + 6, 3(rs - 3st) → 3rs - 9st, 0.7(30 + 10s) → 21 + 7s, 27r - 3st → 3(9r - st).

To match column a to column b, we need to evaluate the expressions in column a and simplify them, and then match them with the corresponding expressions in column b.

For the first expression, we distribute the 3/4 to get 18s + 6. For the second expression, we distribute the 3 to get 3rs - 9st. For the third expression, we distribute the 0.7 and simplify to get 21 + 7s. For the fourth expression, we factor out 3 to get 3(9r - st).

After simplifying each expression in column a, we can match them with the corresponding expressions in column b. The matching is 3/4(24s + 8) → 18s + 6, 3(rs - 3st) → 3rs - 9st, 0.7(30 + 10s) → 21 + 7s, and 27r - 3st → 3(9r - st).

Therefore, the expressions in column a are evaluated, simplified, and matched with the corresponding expressions in column b to complete the matching process.

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The determinant of the given matrix is 1.

To evaluate the determinant of the given matrix by inspection, we can use the property that the determinant of a 4x4 matrix can be found by subtracting the products of the diagonals going in one direction from the products of the diagonals going in the other direction.

In this case, the diagonal going from top left to bottom right consists of the elements 0, 1, 1, and 1, and the diagonal going from top right to bottom left consists of the elements 0, 0, 0, and 1. Therefore, the determinant is (0111) - (1100) = 1.

For the second part, to find all values of k for which the matrix A is invertible, we can use the property that a square matrix is invertible if and only if its determinant is nonzero. Therefore, we need to find all values of k for which det A ≠ 0.

Using the same formula as before, we can calculate the determinant of A to be k(16k-240). Thus, det A ≠ 0 when k ≠ 0 and k ≠ 15, since those are the values of k that would make the determinant equal to zero. Therefore, all values of k except 0 and 15 make the matrix A invertible.

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