we have f '(x) = 2 cos x − 2 sin x, so

Answer:

The value of y is -13.

Step-by-step explanation:

Here, we will use the below following steps to find a solution using the transposition method:

[tex]\begin{gathered} \end{gathered}[/tex]

[tex]\longrightarrow\sf{2y + 6 = y - 7}[/tex]

[tex]\longrightarrow\sf{2y - y = - 7 - 6}[/tex]

[tex]\longrightarrow\sf{\underline{\underline{y = - 13}}}[/tex]

Hence, the value of y is -13.

[tex]\begin{gathered} \end{gathered}[/tex]

[tex]\longrightarrow\sf{2y + 6 = y - 7}[/tex]

Substituting the value of y.

[tex]\longrightarrow\sf{2 \times - 13 + 6 = - 13 - 7}[/tex]

[tex]\longrightarrow\sf{ - 26+ 6 = - 20}[/tex]

[tex]\longrightarrow\sf{ - 20 = - 20}[/tex]

[tex]\longrightarrow\sf{\underline{\underline{LHS = RHS}}}[/tex]

Hence, verified!

Since your retirement fund earns a 4.03% annual interest rate compounded continuously, we'll need to use the continuous compounding formula: A(t) = P * e^(rt)

where:
A(t) = value of the account after t years
P = principal amount (initial investment)
e = the base of the natural logarithm, approximately 2.718
r = interest rate (as a decimal)
t = number of years

Given that you've invested $25,000 (P) at a 4.03% interest rate (r = 0.0403), we'll find the value of the account after 10 years (t = 10).
A(10) = 25000 * e^(0.0403 * 10)

Now, calculate the value:
A(10) = 25000 * e^0.403
A(10) = 25000 * 1.4963 (rounded to 4 decimal places)

Finally, find the total value:
A(10) = 37357.50

After 10 years, the value of the account will be $37,357.50 (rounded to 2 decimal places).

Note that there is no indication of fraud in this scenario, and the interest rate used is 4.03%.

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The speed of propagation of the wave is approximately 2.99 x 10^8 meters per second, which is the same as the speed of light in the material.

We can use the relationship between frequency (f), wavelength (λ), and the speed of light in the material (v) to find the wavelength and speed of the wave:

λ = v / f

Let's start with finding the wavelength:

λ = v / f = c / f

where c is the speed of light in a vacuum, which is approximately 3.00 x 10^8 m/s.

λ = (3.00 x 10^8 m/s) / (2.20 x 10^10 Hz) ≈ 0.0136 m

So the wavelength of the wave in the material is approximately 0.0136 meters, or 13.6 millimeters.

To find the distance between adjacent nodal planes of the E field, we need to know the relationship between the nodal planes of B and E fields in an electromagnetic wave. For a standing electromagnetic wave, the nodal planes of the B field correspond to the antinodal planes of the E field, and vice versa. Therefore, the distance between adjacent nodal planes of the E field is equal to half the distance between adjacent nodal planes of the B field.

So the distance between adjacent nodal planes of the E field is:

(1/2) x 4.35 mm = 2.175 mm

Therefore, the distance between adjacent nodal planes of the E field is approximately 2.175 millimeters.

Finally, we can find the speed of propagation of the wave using the equation:

v = f λ

v = (2.20 x 10^10 Hz) x (0.0136 m) ≈ 2.99 x 10^8 m/s

Therefore, the speed of propagation of the wave is approximately 2.99 x 10^8 meters per second, which is the same as the speed of light in the material.

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1. The standard matrix A for r

A = [0 -1]
     [1  0]

2. The standard matrix B for S

B = [0 1]
     [1 0]

C = BA

3. To find the standard matrix C for T

C = [1  0]
     [0 -1]

4. The correct answer is E. C=BA.

Let's address each part of the question step by step:

1. The standard matrix A for r (counterclockwise rotation by π/2 radians) can be found using the following formula:

A = [cos(π/2) -sin(π/2)]
     [sin(π/2) cos(π/2)]

A = [0 -1]
     [1  0]

2. The standard matrix B for S (reflection about the line y=x) can be found by transforming the standard basis vectors:

B = [0 1]
     [1 0]

3. To find the standard matrix C for T (counterclockwise rotation by π/2 radians followed by reflection about the line y=x), we can compute the product of the matrices A and B:

C = BA
C = [0 1] [0 -1]
     [1 0] [1  0]

C = [1  0]
     [0 -1]

4. Since I is equal to the composition S∘R, we can obtain C from A and B using the following equation:

C = BA

So, the correct answer is E. C=BA.

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A quadratic equation is a polynomial equation of the second degree, meaning it contains at least one variable that is squared but no variables that are raised to a higher power. The general form of a quadratic equation in one variable (usually represented by x) is:

�

�

2

+

�

�

+

�

=

0

,

ax

2

+bx+c=0,

where a, b, and c are constants (numbers) and a is not equal to zero. The term ax^2 is called the quadratic term, bx is the linear term, and c is the constant term.

To solve a quadratic equation, we can use the quadratic formula:

�

=

−

�

±

�

2

−

4

�

�

2

�

.

x=

2a

−b±

b

2

−4ac

​

​

.

This formula gives us the solutions (values of x) for any quadratic equation in the standard form. The expression under the square root, b^2 - 4ac, is called the discriminant of the quadratic equation.

The discriminant can tell us a lot about the nature of the solutions of the quadratic equation. If the discriminant is positive, then the quadratic equation has two distinct real solutions. If the discriminant is zero, then the quadratic equation has one real solution, called a double root or a repeated root. If the discriminant is negative, then the quadratic equation has two complex (non-real) solutions, which are conjugates of each other.

The correct answer is d. None of these.

a. {L_L, LLU, LUL, LUU, ULL, ULU, UUL, UUU} represents the sample space of possible outcomes, where L represents a locked door and U represents an unlocked door. Each outcome represents a possible combination of locked and unlocked doors that Nanette may encounter.

b. {LLU, LUL, ULL, UUL, ULL, LUU} is not a complete sample space, as it is missing some possible outcomes. For example, the outcome where all doors are locked (LLL) is not included.

c. {LLL, UUU} is also not a complete sample space, as it only includes two possible outcomes. There are other possible combinations of locked and unlocked doors that are not represented.

Therefore, the correct answer is d. None of these. The complete sample space would include all possible combinations of locked and unlocked doors for the three doors that Nanette must pass through.

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Answer: Number of kids who attended the party = 12 / 0.60

Step-by-step explanation:

60% = 12

x 0.60 = 12

Number of kids attending =  x = 12 / 0.60

Answer:

12 is 60

Step-by-step explanation:

Answer: 12 is 60 percent of 20. (60% of 20 = 12) Percentages are fractions with 100 as the denominator.

You can be​ 90% confident that the population mean price of the stock is between the bounds of the​ 90% confidence​ interval, and​ 95% confident for the​ 95% interval.

Given data ,

The problem states that a random sample of 43 business days was taken, and the mean closing price of the stock in that sample was $112.15. The population standard deviation is assumed to be $9.95. Based on this information, a confidence interval can be calculated for the population mean.

Now , A wider interval results from a greater confidence level since it calls for more assurance.

If you compare the offered alternatives, option C accurately indicates that you can have a 90% confidence interval for the population mean price of the stock being inside the boundaries, and a 95% confidence interval. Because a 90% confidence interval demands more assurance than a 95% confidence interval, it is smaller. As a result, the population mean is more likely to fall inside the 90% confidence interval's boundaries.

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(a) The fundamental system of differential equation is X(t) = c1 [tex]e^\((\lambda 1t)[/tex]v1 + c2 [tex]e^\((\lambda 1t)[/tex]v2

(b) The second-order linear differential equation with constant coefficients is d²x/dt² = (ad - bc)dx/dt + ([tex]a^2d + b^2c[/tex])x

(a) The homogeneous system of two linear differential equations with constant coefficients can be written as:

where a, b, c, and d are constants.

We can write this system as X' = AX, where X =[tex][x, y]^T[/tex] and A is the 2x2 matrix:

To find a fundamental system of differential equations, we need to find the eigenvalues and eigenvectors of A.

The characteristic equation of A is:

The eigenvalues of A are the roots of the characteristic equation:

λ1,2 = (a+d ± [tex]\sqrt^(a+d)^2[/tex] - 4(ad-bc))) / 2

The eigenvectors of A are the solutions to the equation (A - λI)v = 0, where v is a non-zero vector.

If λ1 and λ2 are distinct eigenvalues, then the eigenvectors corresponding to each eigenvalue form a fundamental system of differential equations. Specifically, if v1 and v2 are eigenvectors corresponding to λ1 and λ2, respectively, then the solutions to the differential equation X' = AX are given by:

X(t) = c1 [tex]e^\((\lambda 1t)[/tex] v1 + c2 [tex]e^\((\lambda 1t)[/tex] v2

where c1 and c2 are constants determined by the initial conditions.

If λ1 and λ2 are not distinct (i.e., they are repeated), then we need to find a set of linearly independent eigenvectors to form a fundamental system of differential equations. In this case, we use the method of generalized eigenvectors.

(b) To rewrite the system of differential equations as one 2nd order linear differential equation, we can differentiate the first equation with respect to t to obtain:

Substituting the second equation into the last expression, we get:

d²x/dt² = (a² + bc)x + (ab + bd)(-cx + d(dx/dt))

Simplifying, we obtain:

d²x/dt² = (ad - bc)dx/dt + (a²d + b²c)x

This is a second-order linear differential equation with constant coefficients.

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The conclusion that is true about f(x) and g(x) based on the table of values is: The function f(x) and g(x) are reflections over the y-axis.    

We know that the rule that describes the reflection over the y-axis is:

       (x,y) → (-x,y)

Hence, if we have a function f(x) as:

f(x) = 2ˣ

Then it's reflection over the y-axis is:

f(-x) = 2⁻ˣ

f(-x) = (¹/₂)⁻ˣ

Thus:

g(x) = (¹/₂)⁻ˣ

Hence, they are reflection over the y-axis.

Also, we know that the exponential function of the type:

y = abˣ                

where a > 0 is an increasing function if b>1 and is a decreasing function if: 0<b<1

Hence, f(x) is a increasing function and g(x) is a decreasing function.

Also, the initial value of a function is the value of function when x=0

when x=0 we see that both f(x)=g(x)=1

i.e. Both f(x) and g(x) have same initial value.

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The conclusion that is true about f(x) and g(x) based on the table of values is: The function f(x) and g(x) are reflections over the y-axis.    

We know that the rule that describes the reflection over the y-axis is:

       (x,y) → (-x,y)

Hence, if we have a function f(x) as:

f(x) = 2ˣ

Then it's reflection over the y-axis is:

f(-x) = 2⁻ˣ

f(-x) = (¹/₂)⁻ˣ

Thus:

g(x) = (¹/₂)⁻ˣ

Hence, they are reflection over the y-axis.

Also, we know that the exponential function of the type:

y = abˣ                

where a > 0 is an increasing function if b>1 and is a decreasing function if: 0<b<1

Hence, f(x) is a increasing function and g(x) is a decreasing function.

Also, the initial value of a function is the value of function when x=0

when x=0 we see that both f(x)=g(x)=1

i.e. Both f(x) and g(x) have same initial value.

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The correct answer is: It is necessary to apply both the decomposition and the augmentation rules to F in order to form a minimal cover.

To form a minimal cover of a set of functional dependencies, we need to apply the decomposition rule, which involves breaking down each dependency in F into its simplest form, and the augmentation rule, which involves adding any missing attributes to the right-hand side of each dependency. In this case, we need to apply both rules to F to obtain a minimal cover.

For example, applying the decomposition rule to UVX->UW yields two dependencies: UV->UW and UX->UW. Applying the augmentation rule to UX->ZV yields UX->ZVY. Continuing in this way, we can obtain a minimal cover for F, which is:

UV->UW
UX->ZVY
VU->Y
V->Y
W->VY
a. It is necessary and sufficient to remove a dependency W->Y from F to form a minimal cover.

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Answer:

[tex]\left \{ {{a_1=1} \atop {a_n=a_{n-1}-5}} \right.[/tex]

Step-by-step explanation:

The recursive formula of an arithmetic sequence is[tex]\left \{ {{a_1=x} \atop {a_n=a_{n-1}+d}} \right.[/tex]. Plugging in each value ([tex]a_1 = 1, d=-5[/tex]) gives us the recursive formula  [tex]\left \{ {{a_1=1} \atop {a_n=a_{n-1}-5}} \right.[/tex].

The next three terms in the given geometric sequence are 24, 48, and 96

To find the next terms in the geometric sequence 3, 6, 12, we need to find the common ratio (r) first.

r = 6/3 = 2

Now we can use the formula for the nth term of a geometric sequence:

an = a1 * r^(n-1)

where n+1 is the nth term, a1 is the first term, r is the common ratio, and n is the term number.

Using this formula, we can find:

a4 = 24 (3 * 2^3)
a5 = 48 (3 * 2^4)
a6 = 96 (3 * 2^5)

Therefore, the next three terms in the sequence are 24, 48, and 96.

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The expression for the temperature of the coffee at time t is:

T(t) = 20 ± (T0 - 20) [tex]e^{(-kt) }[/tex]

What is Algebraic expression ?

An algebraic expression is a combination of variables, numbers, and mathematical operations, such as addition, subtraction, multiplication, division, and exponentiation. Algebraic expressions can be used to represent a wide range of mathematical relationships and formulas in a concise and flexible manner.

The differential equation we discussed in Exercise 9.2.28 is:

dT÷dt = -k(T-20)

where T is the temperature of the coffee in Celsius, t is time in minutes, and k is a constant that depends on the properties of the coffee cup and the room.

To solve this differential equation, we need to separate the variables and integrate both sides.

dT  ÷ (T-20) = -k dt

Integrating both sides:

ln|T-20| = -kt + C

where C is an arbitrary constant of integration.

To solve for T, we exponentiate both sides:

|T-20| =[tex]e^{(-kt + C) }[/tex]

Using the property of absolute values, we can write:

T-20 = ± [tex]e^{(-kt + C) }[/tex]

or

T = 20 ± [tex]e^{(-kt + C) }[/tex]

We can determine the sign of the exponential term by specifying the initial temperature of the coffee. If the initial temperature is above 20°C, then the temperature of the coffee will decay towards 20°C, and we take the negative sign in the exponential term. If the initial temperature is below 20°C, then the temperature of the coffee will increase towards 20°C, and we take the positive sign in the exponential term.

To determine the value of the constant C, we use the initial temperature of the coffee. If the initial temperature is T0, then we have:

T(t=0) = T0 = 20 ± [tex]e^{C }[/tex]

Solving for C, we get:

C = ln(T0 - 20) if we took the negative sign in the exponential term

or

C = ln(T0 - 20) if we took the positive sign in the exponential term.

Therefore, the expression for the temperature of the coffee at time t is:

T(t) = 20 ± (T0 - 20) [tex]e^{(-kt) }[/tex]

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Answer:

x = 225

Step-by-step explanation:

Pythagorean Theorem: a^2 + b^2 = c^2, where a and b are the side lengths and c is the hypotenuse.

Substituting in the values:

(x - 3)^2 + 9^2 = x^2

Then, we isolate x:

(x - 3)^2 + 81 = (x - 3)(x - 3) + 81 = x^2 - 6x + 9 + 81 = x^2 - 6x + 90 = x^2

(Subtract x^2 from both sides)

- 6x + 90 = 0

(Add 6x to both sides, I also flipped the equation to put x on the left side)

6x = 90

(Divide both sides by 6)

x = 15

To double-check, substitute x with 15:

(15 - 3)^2 + 9^2 = 15^2

Simplify:

144 + 81 = 225 (true)

The critical point (4,-8) of given function is a saddle point. Therefore, the answer is D.

To find the critical point(s) of the function, we need to find where the gradient of the function is zero or undefined.

The gradient of f(x,y) is:

∇f(x,y) = (2x+4y-24, 2y+4x)

To find the critical points, we need to solve for ∇f(x,y) = 0:

2x+4y-24 = 0 (1)

2y+4x = 0 (2)

From equation (2), we can solve for y in terms of x:

y = -2x

Substituting this into equation (1), we get:

2x + 4(-2x) - 24 = 0

Simplifying, we get:

x = 4

Substituting x = 4 into equation (2), we get:

y = -8

Therefore, the only critical point of f(x,y) is (4,-8).

To determine whether this critical point is a local minimum, local maximum, or saddle point, we need to use the Second Derivative Test.

The Hessian matrix of f(x,y) is:

H = [2 4]

[4 2]

The determinant of H is:

det(H) = (2)(2) - (4)(4) = -12

Since det(H) is negative, the critical point (4,-8) is a saddle point. Therefore, the answer is D.

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The equation 2x^2 - 9x^2y^2z^2 = 3 in cylindrical coordinates is 2r^2 * cos^2(θ) - 9r^4 * cos^2(θ) * sin^2(θ) * z^2 = 3 and the equation z = 7x^2 - 7y^2 in cylindrical coordinates is z = 7r^2 * cos^2(θ) - 7r^2 * sin^2(θ).

The cylindrical coordinate system uses three parameters: radius (r), azimuthal angle (θ), and height (z). To convert from Cartesian coordinates (x, y, z) to cylindrical coordinates (r, θ, z), we use the following relations:

x = r * cos(θ)
y = r * sin(θ)
z = z

(a) 2x^2 - 9x^2y^2z^2 = 3
Replace x and y with their cylindrical counterparts:

2(r * cos(θ))^2 - 9(r * cos(θ))^2(r * sin(θ))^2z^2 = 3

Simplify the equation:

2r^2 * cos^2(θ) - 9r^4 * cos^2(θ) * sin^2(θ) * z^2 = 3

This is the equation 2x^2 - 9x^2y^2z^2 = 3 in cylindrical coordinates.

(b) z = 7x^2 - 7y^2
Replace x and y with their cylindrical counterparts:

z = 7(r * cos(θ))^2 - 7(r * sin(θ))^2

Simplify the equation:

z = 7r^2 * cos^2(θ) - 7r^2 * sin^2(θ)

This is the equation z = 7x^2 - 7y^2 in cylindrical coordinates.

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To determine the consistency of the nonhomogeneous system ax = b, perform row reduction on the augmented matrix and analyze the row echelon form. If the system is consistent, find the particular solution x_p and the homogeneous solution x_h, then combine them to obtain the general solution x = x_p + x_h.

To determine whether the nonhomogeneous system ax = b is consistent, follow these steps:

1. Create an augmented matrix by combining the coefficient matrix A and the constant matrix b.
2. Perform row reduction (Gaussian elimination) on the augmented matrix to obtain its row echelon form or reduced row echelon form.
3. Analyze the row echelon form to determine if the system is consistent. If there is a row with all zeros except the last entry, the system is inconsistent. If there are no such rows, the system is consistent.

If the system is consistent, write the solution in the form x = x_p + x_h, where x_p is a particular solution of ax = b and x_h is a solution of ax = 0, using these steps:

1. Solve for x_p (particular solution) by back-substituting the values in the row echelon form.
2. To find x_h (homogeneous solution), set the constant matrix b to a matrix of all zeros and solve the system ax = 0.
3. Combine x_p and x_h to form the general solution x = x_p + x_h.

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The boat that Claire bought 21 years ago, which is now worth £2,980 and depreciated at a rate of 1.25% per year was bought for £3,880. 94.

The depreciated value is the original cost less the accumulated depreciation.

Given the depreciated value and the annual depreciation rate, we can determine the original cost as follows:

The depreciation period = 21 years

Annual depreciation rate = 1.25%

The depreciated value of the boat = £2,980

Depreciation factor = (100 - 1.25)^21

= 0.9875^21

= 0.7678549

Proportionately, £2,980 = 0.7678549, while the original purchase price = £3,880. 94 (£2,980 ÷ 0.7678549)

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Answer:

To find the vertices and name two points on the minor axis of the ellipse represented by the equation 9x^2+y^2-18x-6y+9=0, we need to first put it in standard form by completing the square for both x and y terms.

Starting with the x terms:

9x^2 - 18x = 0

9(x^2 - 2x) = 0

We need to add and subtract (2/2)^2 = 1 to complete the square inside the parentheses:

9(x^2 - 2x + 1 - 1) = 0

9((x-1)^2 - 1) = 0

9(x-1)^2 - 9 = 0

9(x-1)^2 = 9

(x-1)^2 = 1

x-1 = ±1

x = 2 or 0

Now we can do the same for the y terms:

y^2 - 6y = 0

y^2 - 6y + 9 - 9 = 0

(y-3)^2 - 9 = 0

(y-3)^2 = 9

y-3 = ±3

y = 6 or 0

So the center of the ellipse is (1, 3), the major axis is along the x-axis with a length of 2a = 2√(9/1) = 6, and the minor axis is along the y-axis with a length of 2b = 2√(1/9) = 2/3.

The vertices are the points on the major axis that are farthest from the center. Since the major axis is along the x-axis, the vertices will be (1±3, 3), or (4, 3) and (-2, 3).

To find two points on the minor axis, we can use the center and the length of the minor axis. Since the minor axis is along the y-axis, we can add or subtract the length of the minor axis from the y-coordinate of the center to find the two points. Therefore, the two points on the minor axis are (1, 3±1/3), or approximately (1, 10/3) and (1, 8/3).

Step-by-step explanation:

Answer:

One possible equation that fits the given domain and range is:

y = (x - 3)^2

This is a quadratic function that opens upwards and has its vertex at the point (3,0). It is defined for all real numbers except x = 0, and takes on only non-negative values, which means its range is [0,infinity).

Using the tangent plane approximation, we estimate that the value of the function at the point (-4.9, -3.1) is approximately -43.72.

A function connects an input with an output. It is analogous to a machine with an input and an output. And the output is somehow related to the input. The standard manner of writing a function is f(x) "f(x) =... "

To approximate the value of the function at the point (-4.9, -3.1) using a tangent plane, we need to first find the equation of the tangent plane at that point.

Let f(x, y) = x² - 2xy + y² + 5x - 7y. Then, the partial derivatives of f(x, y) with respect to x and y are:

fx(x, y) = 2x - 2y + 5

fy(x, y) = -2x + 2y - 7

At the point (-4.9, -3.1), we have:

f(-4.9, -3.1) = (-4.9)² - 2(-4.9)(-3.1) + (-3.1)² + 5(-4.9) - 7(-3.1) = -43.72

And the partial derivatives are:

fx(-4.9, -3.1) = 2(-4.9) - 2(-3.1) + 5 = -3.8

fy(-4.9, -3.1) = -2(-4.9) + 2(-3.1) - 7 = -2.7

Using the point-normal form of the equation of a plane, we can write the equation of the tangent plane to the surface at the point (-4.9, -3.1) as:

-3.8(x + 4.9) - 2.7(y + 3.1) + z + 43.72 = 0

Solving for z, we get:

z = 3.8(x + 4.9) + 2.7(y + 3.1) - 43.72

To approximate the value of the function at the point (-4.9, -3.1), we substitute x = -4.9 and y = -3.1 into this equation:

z ≈ 3.8(-4.9 + 4.9) + 2.7(-3.1 + 3.1) - 43.72 ≈ -43.72

Therefore, using the tangent plane approximation, we estimate that the value of the function at the point (-4.9, -3.1) is approximately -43.72.

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Answer: (-3, 2)

When putting the other 3 on a graph you see where they all will line up to form a rectangle. Just locate the point :)

Answer:

Lim
x - 1

Step-by-step explanation:

(x-1)
(|x-1|)

(a) point estimate- A single number used to estimate a population parameter. (b) critical value- The value of a probability density function which cuts off a critical area.

(a) Point estimate refers to a single value that is used to estimate a population parameter. It is a procedure designed to give a range of values as an estimate of an unknown parameter value. It is also a measure of the reliability of an interval estimate, as it represents the middle or central tendency of a set of data.

In certain circumstances, the largest distance between the point estimate and the parameter it estimates can be tolerated, and this is known as the margin of error or confidence interval. Additionally, the value of a probability density function that cuts off a critical area is also known as a point estimate.

(b) Critical value is the value of a probability density function that cuts off a critical area. It is used to determine the acceptance or rejection of a null hypothesis in hypothesis testing.

It is also a measure of the reliability of an interval estimate, as it represents the largest distance between the point estimate and the parameter it estimates that can be tolerated under certain circumstances. Unlike point estimate, critical value is a single number used to estimate a population parameter.

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Your answer: The elasticity of the demand function 2p 3q = 90 at the price p = 15 is -0.5.

To find the elasticity of the demand function, we need to use the following formula:

Elasticity = (dq/dp) * (p/q)

where dq/dp is the derivative of q with respect to p, and (p/q) is the ratio of the two variables at a given point.

First, we need to solve the demand function for q in terms of p:

2p + 3q = 90

3q = 90 - 2p

q = (90 - 2p)/3

Next, we need to find the derivative of q with respect to p:

dq/dp = (-2/3)

Finally, we can plug in the values for p and q to find the elasticity at p = 15:

q = (90 - 2(15))/3 = 20

(p/q) = 15/20 = 0.75

Elasticity = (-2/3) * (15/20) = -0.5

Therefore, the elasticity of the demand function 2p + 3q = 90 at the price p = 15 is -0.5. This means that a 1% increase in price would lead to a 0.5% decrease in quantity demanded.

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Answer:

  1856 ft²

Step-by-step explanation:

You want the surface area of an isosceles triangular prism 23 ft long with a triangle base of 24 ft and a height of 16 ft.

The area of the two triangles is ...

  A = 2 × 1/2bh = bh

  A = (24 ft)(16 ft) = 384 ft²

The area of the three rectangular sides is ...

  A = LW

  A = (24 ft + 20 ft + 20 ft)(23 ft) = 64·23 ft² = 1472 ft²

The surface area of the prism is the sum of the base area and the lateral area:

  A = 384 ft² +1472 ft² = 1856 ft²

The surface area of the prism is 1856 square feet.

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Additional comment

We recognize each of the smaller right triangles that make up one base is a 3-4-5 right triangle with a scale factor of 4 ft. That makes the hypotenuse exactly 20 ft, as shown in the diagram.

The lateral area is effectively the product of the prism length (23 ft) and the perimeter of the triangular base.

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The rule that describes a 90° clockwise rotation is (x, y) → (-y, x).

A 90° clockwise rotation in a two-dimensional Cartesian coordinate system involves rotating points 90 degrees in the clockwise direction around the origin (0,0) on the x-y plane.

In this rotation, the new x-coordinate becomes the negative of the original y-coordinate, and the new y-coordinate becomes the original x-coordinate.

So for the given option, we can see clearly that the rule that describes a 90° clockwise rotation is (x, y) → (-y, x).

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The simplified form of the expression (3d) (-5d²) (6d)⁴ is -19440d⁷.

Given the expression in the question:

(3d) (-5d²) (6d)⁴

To simplify the expression (3d)(-5d²)(6d)⁴, we need to expand the brackets and perform the multiplication of the terms.

(6d)⁴ = ( 6⁴ d⁴) = 1296d⁴

Hence, we have:

(3d)(-5d²)(1296d⁴)

Next , we can multiply the coefficients 3, -5, and 1296, to get -90:

-19440

Next, we can multiply the variables d, d², and d⁴, to get:

d⁷

So putting it all together, we get:
-19440d⁷

Therefore, the simplified form is -19440d⁷.

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The data collected by the student is quantitative (since it involves numbers) and discrete (since the number of shirts owned is likely to be a whole number). Therefore, the correct answer is "Quantitative Discrete".

Quantitative data is numerical data that can be measured or counted. In this case, the student surveyed his classmates and asked them the number of shirts they own, which is a numerical value. Therefore, the data collected is quantitative.

Discrete data is numerical data that can only take on certain values, typically integers. In this case, the number of shirts a person owns is unlikely to be a fractional value, and is more likely to be a whole number. Therefore, the data collected is discrete.

It is important to identify whether the data is continuous or discrete, as this can impact the choice of statistical tests and methods used for analysis. Continuous data involves measurements that can take on any value within a certain range (e.g., height, weight), whereas discrete data involves measurements that can only take on certain values (e.g., number of children in a family, number of cars owned). In this case, since the data is discrete, certain statistical methods that are designed for continuous data (such as regression) may not be appropriate, and other methods that are specifically designed for discrete data (such as Poisson regression) may be more appropriate.

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