I'm a bit confused on how to do this... please help asap

The behavior of the function can be described in following way f(x) → negative infinity, as x → p[ infinity]  

We have been given a function, f(x) = -4. 6|x + 2| + 7

Now according to the question we have to determine the end behavior of the function

It's also given that x→−[infinity], so the absolute value of  x + 2 will also approach infinity when x tends to infinity

Since -4 is there in the equation of f(x) so when x+ 2 will approach infinity then f(x) will approach negative infinity

By using this approach we can easily see that f(x) will tends to negative infinity when x tends to infinity

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Answer:

1. 1 on the top 2 below it

2. 10 on top 20 on bottom

Step-by-step explanation:

Pls give brainlist

Happy Easter

The advantages and disadvantages of cluster sampling are "Cluster sampling can save time when members of the population are widely scattered geographically. The disadvantage is that members of a cluster may be more homogeneous than the members of the population as a whole and may not mirror the entire population. ". Therefore, option b. is correct.

Cluster sampling is a probability sampling method in which you divide a population into clusters, such as districts or schools, and then randomly select some of these clusters as your sample. The clusters should ideally each be mini-representations of the population as a whole.

The advantages and disadvantages of cluster sampling can be described as follows:

Cluster sampling can save time when members of the population are widely scattered geographically.

The disadvantage is that members of a cluster may be more homogeneous than the members of the population as a whole and may not mirror the entire population.

Therefore, the correct option is b.

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It took longer than a half-hour time but less than an hour because 5/12<1/2, so 5/12 + 1/2 < 1. So correct option is D.

Mathematical relationships and operations that are represented by symbols and letters are the subject of the discipline of mathematics known as algebra. It entails representing unknowable quantities with letters, symbols, and numbers while also manipulating these symbols to solve mathematical puzzles.

In algebra, we explain relationships between variables using equations and inequalities. Letters are commonly used to denote variables, and equations show how the variables relate to one another. Addition, subtraction, multiplication, and division are the four fundamental algebraic operations that humans utilise to manipulate equations and find solutions to issues.

Numerous disciplines, including science, engineering, economics, and finance, use algebra. It is an effective technique for tackling challenging issues and is necessary in many advanced areas of mathematics.

The amount of time Nolan spent reading and tending to his garden is equal to the sum of his reading time (5/12 hour) and his gardening time (1/2 hour). As a result, we must determine the product 5/12 plus 1/2:

5/12 + 1/2 = (5/12) x (2/2) + (1/2) x (6/6) = 10/24 + 12/24 = 22/24

When we simplify the ratio 22/24, we obtain:

22/24 = 11/12

As a result, Nolan spent 11/12 hours reading and tending to his garden, which is more than 1/2 hour but less than 1 hour.

So, D is the right response. It took longer than a half-hour but less than an hour because 5/12<1/2, so 5/12 + 1/2 < 1.

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The complete question is,

Tito purchased one raffle ticket as part of a Meals on wheels fundraiser.

1. The probability that Tito wins the grand prize is [tex]\frac{1}{50}[/tex]

2. The probability that Tito does not win the grand prize is [tex]\frac{49}{50}[/tex]

3. The odds against Tito winning the grand prized is [tex]\frac{1}{49}[/tex]

4. The odds in favor of Tito winning the grand prize is 49.

               Probability means chance or possibility of an outcome. It explains the possibility of a particular event occurring.

Definition of probability: “Probability is a mathematical term for the likelihood that something will occur. It is the ability to understand and estimate the possibility of a different combination of outcomes.”

1. P(win)=[tex]\frac{1}{50}[/tex]

2. P(not win)=[tex]1-\frac{1}{50}[/tex]= [tex]\frac{49}{50}[/tex].

3. odds in favor = [tex]\frac{P(E)}{1-P(E)}[/tex]= [tex]\frac{P(win)}{1-P(win)}[/tex] =[tex]\frac{\frac{1}{50} }{1-\frac{1}{50} } }[/tex]= [tex]\frac{1}{49}[/tex]

4. odds against = [tex]\frac{P(E')}{1-P(E')}[/tex]= [tex]\frac{P(not win)}{1-P(not win)}[/tex]= [tex]49[/tex]

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The volume of region bounded by z = x2 y2 and z = 10 - x2 - 2y2 is ∞.

To find the volume of the region bounded by the surfaces z = x^2 y^2 and z = 10 - x^2 - 2y^2, we can use triple integrals in cylindrical coordinates.

First, we need to find the limits of integration.

The surfaces intersect at the boundary where z = x^2 y^2 = 10 - x^2 - 2y^2.

Rearranging the equation gives us x^2 + 2y^2 + x^2 y^2 - 10 = 0.

This can be factored as (x^2 + 1)(y^2 + 2) - 12 = 0.

Thus, we have two curves: x^2 + 1 = 0 and y^2 + 2 = 0.

However, neither curve is possible because we cannot take the square root of a negative number.

Therefore, there is no boundary and the region is unbounded.

To set up the triple integral,

we can use cylindrical coordinates: x = r cos(θ), y = r sinθ), and z = z.

The Jacobian is r, so the volume is given by:

V = ∫∫∫ r dz dr dθ

The limits of integration for r and θ  are 0 to infinity and 0 to 2π, respectively.

The limit for z is from the surface z = x^2 y^2 to z = 10 - x^2 - 2y^2.

However, since there is no boundary, we can integrate from z = 0 to z = infinity.

Thus, we have:

V = ∫∫∫ r dz dr dθ from 0 to infinity for z, 0 to infinity for r, and 0 to 2π for theta.

Evaluating the integral gives us:

V = ∫0^2π ∫0^∞ ∫0^∞ r dz dr dθ = ∞

Therefore, the volume of the region bounded by the surfaces z = x^2 y^2 and z = 10 - x^2 - 2y^2 is infinity.

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Answer: 54n. If n = 20, the expression is equal to 1,080.

Step-by-step explanation:

    To simplify we will combine like terms, as the information given suggests, then we will substitute the given and evaluate.

Given:

   31n + 5n - n + 19n

Add 5n to 31n:

   36n - n + 19n

Subtract n from 36n:

   35n + 19n

Add 19n to 35n:

   54n

Substitute if n = 20:

   54(20)

Multiply:

   1,080

Answer: yes

Step-by-step explanation: if you plug in the 8 and the three you get the equation: 3=8-5 and that is true therefore the answer is yes :)

Answer:

Let x be the measure of the central angle of the arc.

π/2 = 2x, so x = π/4 radians

2 = 3x, so x = 2/3 radians

2.8 = 3.5x, so x = 4/5 radians = .8 radians

3 = 4x, so x = 3/4 radians = .75 radians

π = 5x, so x = π/5 radians

4 = 6x, so x = 2/3 radians

(a) The probability that you lose your place in line during the 5-minute break is 28.35%. (b) The probability that zero, one, or two arrivals will come during your five minute rest break is 99.34%.

(a) The probability that you will lose your place is equal to probability that at least one person arrives during this time. Let X be number of arrivals during 5-minute break. Then X follows a Poisson distribution with a mean of (1/15) × 5 = 1/3 arrivals during 5-minute break.

Thus, the probability that you lose your place in line during the 5-minute break is:

P(X ≥ 1) = 1 - P(X = 0)

= 1 - (e^(-1/3) (1/3)^0 / 0!)

≈ 0.2835

Therefore, the chance that you lose your place in line during the 5-minute break is approximately 28.35%.

(b) The number of arrivals during the 5-minute break follows a Poisson distribution with a mean of 1/3 arrivals.

P(X = 0) = e^(-1/3) (1/3)^0 / 0! ≈ 0.7165

P(X = 1) = e^(-1/3) (1/3)^1 / 1! ≈ 0.2388

P(X = 2) = e^(-1/3) (1/3)^2 / 2! ≈ 0.0381

Therefore, the probability that zero, one, or two arrivals will come during your five-minute rest break is approximately:

P(X ≤ 2) = P(X = 0) + P(X = 1) + P(X = 2)

≈ 0.9934

Thus, the probability that at most two arrivals will come during your break is approximately 99.34%.

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To show that det U = 1, we can use the fact that U'U = I, which implies that U^-1 = U'. Taking the determinant of both sides, we have det U^-1 = det(U') = (det U)^T, where T denotes transpose. But det(U') = det U since U is a square matrix. Therefore, (det U)^2 = det(U'U) = det(I) = 1. Taking the positive square root, we get det U = 1 or -1.

However, the problem statement specifies that det U = 11, which is not possible since det U can only be 1 or -1 for a matrix satisfying U'U = I. Therefore, there must be an error in the problem statement.
To show that det U = 1 when U'U = I. Here's the answer using the provided terms:

Since U'U = I, we can apply the determinant to both sides of the equation:

det(U'U) = det(I)

Now, we use the property that det(AB) = det(A) * det(B), so:

det(U') * det(U) = det(I)

The determinant of the identity matrix is 1, so:

det(U') * det(U) = 1

For an orthogonal matrix like U, det(U') = det(U)^(-1), therefore:

det(U)^(-1) * det(U) = 1

Since det(U)^(-1) * det(U) = 1, it implies that det(U) = 1.

So, the correct option to achieve the desired result is B. det(U') * det(U) = 1.

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The Box-Muller method produces standard normal random variates.

The Box-Muller method is a popular algorithm for generating pairs of independent standard normal random variates from pairs of independent uniform random variates.

The method works by taking two independent uniform random variables, U₁ and U₂, and transforming them into two independent standard normal random variables, Z₁ and Z₂, using the following equations:

Z₁ = √(-2ln(U₁))cos(2πU₂)

Z₂ = √(-2ln(U₁))sin(2πU₂)

where ln denotes the natural logarithm and π denotes the mathematical constant pi.

To prove that the Box-Muller method produces standard normal random variates, we need to show that the generated Z₁ and Z₂ have mean zero and variance one, which are the properties of a standard normal distribution.

First, we can show that the mean of Z₁ is zero by taking the expected value of Z₁:

E(Z₁) = E[√(-2ln(U₁))cos(2πU₂)]

= ∫∫ √(-2ln(u))cos(2πv) du dv (where the integral is over the region 0<u,v<1)

= 0

The same approach can be used to show that the mean of Z₂ is also zero.

Next, we need to show that the variance of Z₁ and Z₂ is one. We can use the fact that the variance of a random variable X is given by:

Var(X) = E(X²) - [E(X)]²

To calculate the variance of Z₁, we first need to calculate E(Z₁²):

E(Z₁²) = E[-2ln(U₁)cos²(2πU₂)]

= ∫∫ -2ln(u)cos²(2πv) du dv (where the integral is over the region 0<u,v<1)

= ∫ -2ln(u) du * ∫ cos²(2πv) dv (where the first integral is over the region 0<u<1 and the second integral is over the region 0<v<1)

= [u ln(u) - u]₁ * [v/2 + sin(4πv)/8π]₁

= 1/2

Therefore, we have:

Var(Z₁) = E(Z₁²) - [E(Z₁)]²

= 1/2 - 0²

= 1

Similarly, we can show that the variance of Z₂ is also one.

Therefore, we have shown that the Box-Muller method produces standard normal random variates, which have mean zero and variance one.

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The 95% confidence interval for p is .52 to .68.(C)

To find the 95% confidence interval for p, we will use the formula: CI =p-cap ± Z * √(p-cap * (1 - p-cap) / n), where p-cap is the sample proportion, Z is the Z-score for 95% confidence level, and n is the number of observations.

1. Calculate p-cap: In this case, p-cap = 0.6
2. Determine Z: For a 95% confidence interval, Z = 1.96 (from Z-table)
3. Calculate the standard error: SE = √(p-cap * (1 - p-cap) / n) = √(0.6 * (1 - 0.6) / 144) ≈ 0.0408
4. Calculate the margin of error: ME = Z * SE = 1.96 * 0.0408 ≈ 0.08
5. Find the confidence interval: CI = p-cap ± ME = 0.6 ± 0.08 = (0.52, 0.68)

Therefore, the 95% confidence interval for p is .52 to .68.

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We check our work by plugging our values for Xn and Xp into the equations Ux = 0 and Ux = c to verify that they are indeed solutions to the original system of equations.

(a) The statement "The complete solution to Ax = b is any linear combination of Xp and Xn" is false because the complete solution to Ax = b is the sum of the particular solution Xp and the nullspace solution Xn. It is not a linear combination of the two.

(b) The statement "The system Ax- b has at most one particular solution" is false because a system of linear equations can have multiple particular solutions. However, it will have at most one solution in the case where the system is consistent and the rank of the matrix A is equal to the rank of the augmented matrix [A | b].

(c) The statement "If A is invertible, there is no solution Xn in the nullspace" is false because the nullspace of a matrix is always non-empty and contains the zero vector, even if the matrix is invertible. However, the nullspace of an invertible matrix will only contain the zero vector.

To solve the system of equations represented by the augmented matrices U 0 and U c, we use Gauss-Jordan elimination to reduce them to row echelon form. This involves performing elementary row operations such as adding multiples of one row to another and multiplying a row by a scalar. The end result should be a matrix R in row echelon form.

Next, we solve the system Rx = 0 by setting the non-pivotal variables to be free and expressing the pivotal variables in terms of them. This will give us the nullspace solution Xn. Then, we solve Rx = d using back-substitution to obtain the particular solution Xp.

we check our work by plugging our values for Xn and Xp into the equations Ux = 0 and Ux = c to verify that they are indeed solutions to the original system of equations.
(a) The statement "The complete solution to Ax = b is any linear combination of Xp and Xn" is false because the complete solution is given by X = Xp + Xn, where Xp is a particular solution to Ax = b and Xn is a solution to the homogeneous system Ax = 0. It is not any linear combination of Xp and Xn, but rather the sum of a specific Xp and all possible solutions Xn.

(b) The statement "The system Ax - b has at most one particular solution" is false because it can have either one unique solution, infinitely many solutions, or no solution at all. The number of solutions depends on the properties of the matrix A and the vector b.

(c) The statement "If A is invertible, there is no solution Xn in the nullspace" is false because if A is invertible, the nullspace contains only the trivial solution (all zeros). In this case, the nullspace has one solution (Xn = 0), not zero solutions.

Regarding the Gauss-Jordan elimination problem:

1. Write down the augmented matrices U|0 and U|c.
2. Apply Gauss-Jordan elimination to reduce both matrices to row echelon form R|0 and R|D.
3. Solve the systems Rx = 0 and Rx = D using back substitution.
4. Check your work by plugging your solutions back into the equations Ux = 0 and Ux = c.

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The first-order system of equations:x1' = x2, x2' = 3x2 - 7x1 + [tex]t^2[/tex]

To convert the nonhomogeneous differential equation y′′ + 3y′ + 7y = [tex]t^2[/tex] to a first order system, we can define two new variables, x1 = y and x2 = y′.

Then, we can express the derivatives of x1 and x2 in terms of themselves and t:

x1' = y' = x2

x2' = y'' = t^2 - 3y' - 7y

Now, we have a system of two first-order differential equations:

x1' = x2

x2' = t^2 - 3x2 - 7x1

We can rewrite this system in matrix form:

[x1']   [0 1][x1]   [0]

[x2'] = [7 -3][x2] + [tex]t^2[/tex]

where the matrix on the left-hand side is the coefficient matrix, the column vector on the right-hand side contains the forcing functions, and the column vector on the left-hand side contains the derivatives of x1 and x2.

Thus, the first order system for the nonhomogeneous differential equation y′′ + 3y′ + 7y = [tex]t^2[/tex] is:

[x1'] = [0 1][x1]

[x2']   [7 -3][x2] + [tex]t^2[/tex]
To convert the nonhomogeneous differential equation y'' - 3y' + 7y =[tex]t^2[/tex] to a first-order system, let x1 = y and x2 = y'. Then, we have:

x1' = y' = x2
x2' = y'' = 3y' - 7y + [tex]t^2[/tex]

Now, substitute the expressions for x1 and x2:

x1' = x2
x2' = 3x2 - 7x1 + [tex]t^2[/tex]

This gives us a first-order system of equations:

x1' = x2
x2' = 3x2 - 7x1 +[tex]t^2[/tex]

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The area of the finite part of the paraboloid is approximately 72.266 square units.

The equation of the paraboloid is z = . We want to find the area of the part of the paraboloid that lies below the plane z=81 and above the xy-plane where y ≥ 0.

To find the intersection between the paraboloid and the plane, we set z=81 in the equation of the paraboloid:

81 =[tex]x^2y^2[/tex]

Solving for x in terms of y:

x = ±[tex]\sqrt^(81/y^2)[/tex] = ±9/y

Since y ≥ 0, we can only consider the positive root, so x = 9/y.

To find the limits of integration, we need to find the values of y where the paraboloid intersects the plane z=0 (i.e., the xy-plane). Setting z=0 in the equation of the paraboloid, we get:

0 = [tex]x^\\2y^2[/tex]

This equation is satisfied for x=0 or y=0. Since y ≥ 0, we can only consider y=0, which implies that x=0. Therefore, the paraboloid intersects the xy-plane at the origin.

We can now set up the integral to find the area of the finite part of the paraboloid cut off by the plane z=81:

A = ∫∫R [tex]\sqrt^(1 + (\alpha z/\alpha x)^2 + (\alpha z/\alpha y)^2[/tex]) dA

where R is the region in the xy-plane bounded by the curves y=0 and y=h, where h is the value of y where the paraboloid intersects the plane z=81.

The integrand can be simplified using the partial derivatives of z:

Substituting x=9/y and z=81, we get:

Therefore, the integrand becomes:

[tex]\sqrt^(1 + (18y)^2 + (162/y)^2)[/tex]

The region R is a rectangle bounded by y=0 and y=h=9. Therefore, the integral becomes:

A = ∫0⁹ ∫[tex]0^\\(9/y)[/tex] [tex]\sqrt^(1 + (18y)^2 + (162/y)^2)[/tex] dx dy

This integral is difficult to evaluate analytically, so we can use numerical methods to approximate it. For example, using a numerical integration method like Simpson's rule with a step size of 0.1, we get:

A ≈ 72.266

Therefore, the area of the finite part of the paraboloid cut off by the plane z=81 and where y ≥ 0 is approximately 72.266 square units.

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A sample size of at least 665 individuals would be needed to estimate the population proportion of individuals who believe in reincarnation within 0.1 with 99% confidence.

In order to determine the sample size needed to estimate the population proportion of individuals who believe in reincarnation within a certain level of accuracy and confidence, we must consider several factors.

These factors include the desired level of precision, the level of confidence desired, and the estimated population proportion.
To calculate the necessary sample size, we can use a formula that takes into account these factors. This formula is:
[tex]n = (z^2 * p * (1-p))/E^2[/tex]
Where:
n = sample size
z = the z-score associated with the desired level of confidence (in this case, 2.576 for 99% confidence)
p = the estimated population proportion (if unknown, we can use 0.5 as a conservative estimate)
E = the desired margin of error (in this case, 0.1)
Putting in the values, we get:
[tex]n = (2.576^2 * 0.5 * (1-0.5))/0.1^2[/tex]
[tex]n = 664.3[/tex]
Therefore, a sample size of at least 665 individuals would be needed to estimate the population proportion of individuals who believe in reincarnation within 0.1 with 99% confidence.

It is important to note that this sample size assumes a simple random sample and other assumptions of statistical inference are met. If any of these assumptions are violated, the sample size required may be larger.

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Answer:

To find the total number of vegetables Andrew picked and put into bags, we need to add the number of carrots, tomatoes, and turnips.

The number of carrots is 10 per bag and he filled 3 bags, so he picked 10 x 3 = 30 carrots.

The number of tomatoes is 8 per bag and he filled 4 bags, so he picked 8 x 4 = 32 tomatoes.

The number of turnips is 6 per bag and he filled 5 bags, so he picked 6 x 5 = 30 turnips.

Therefore, the expression that represents all the vegetables Andrew picked and put into bags is:

30 + 32 + 30 = 92

Andrew picked a total of 92 vegetables and put them into bags.

Answer:

This statement is not entirely correct. A greedy algorithm is a type of algorithm that makes locally optimal choices at each step in the hope of finding a global optimum. However, not all greedy algorithms are guaranteed to find an optimal solution, and some may only find a feasible solution that is not optimal.

In general, a greedy algorithm may not always produce an optimal solution, but it can often provide a good approximation for some optimization problems. Greedy algorithms are useful in problems where finding an optimal solution is computationally infeasible, and a near-optimal solution is sufficient.

Therefore, a greedy algorithm does not necessarily need to find an optimal solution to be considered as a greedy algorithm. It only needs to make locally optimal choices at each step, which may or may not lead to an optimal solution.

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The solution to the initial value problem is y(t) = (25/3)e^(-t) - (5/3)e^(-4t).

The general solution of the differential equation y^(4) + 4y''' + 4y'' = 0 is y(t) = c1 + c2t + c3e^(-t) + c4te^(-t).

To solve the initial value problem, we first find the roots of the characteristic equation:

Using the quadratic formula, we get:

So the general solution of the differential equation is:

Using the initial conditions y(0) = 5 and y'(0) = -6, we can solve for c1 and c2:

Solving this system of equations, we get:

So the solution to the initial value problem is:

To find the general solution of the differential equation y^(4) + 4y''' + 4y'' = 0, we first find the characteristic equation:

This can be factored as:

So the roots are:

Therefore, the general solution is:

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Answer:560cm[tex]^3[/tex]

Step-by-step explanation:

(4x16)x2=128

(16x9)x2=288

(9x4)x2=144

128+288+144=560

Answer:

488

Step-by-step explanation:

Multiply every 2 sides .  there r 3 sets of 2 sides, so times 2.

2*(4x16+16*9+4*9) = 2*(64+144+36) =488

The integral of 4t³ - t² dt with respect to t, using c as the constant of integration, is (t⁴/4) - (t³/3) + c.

To evaluate the given integral, we can use the power rule of integration.

Step 1: Integral of 4t³

The integral of 4t³ with respect to t is (t⁴/4). We add 1 to the exponent (3+1=4) and divide by the new exponent (4) to obtain (t⁴/4).

Step 2: Integral of -t²

The integral of -t² with respect to t is -(t³/3). We add 1 to the exponent (2+1=3), divide by the new exponent (3), and then multiply by the coefficient (-1) to obtain -(t³/3).

Step 3: Add the constant of integration

Finally, we add the constant of integration c, which is a constant term that accounts for all possible antiderivatives of the given function.

Therefore, the integral of 4t³ - t² dt with respect to t is (t⁴/4) - (t³/3) + c.

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The dimension of the subspace spanned by the given vectors is 2.

To find the dimension of the subspace spanned by the given vectors, you need to determine their linear independence. The vectors are:

v1 = [1, -2, 0]
v2 = [-3, 4, 1]
v3 = [-8, 6, 5]
v4 = [-3, 0, 7]

Form a matrix with these vectors as columns:

M = |  1  -3  -8  -3 |
    | -2   4   6   0 |
    |  0   1   5   7 |

Now, perform Gaussian elimination to find the reduced row echelon form (RREF) of the matrix:

RREF(M) = | 1  0  -2  1 |
                 | 0  1   5  7 |
                 | 0  0   0  0 |

The rank of the matrix is the number of non-zero rows in the RREF, which is 2 in this case.

Therefore, the dimension of the subspace spanned by the given vectors is 2.

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A matroid is one which is Non-empty, has hereditary and exchange property. Since,  (s, ik)  satisfies all three axioms of a matroid, we can say that (s, ik) is a matroid.

To show that (s, ik) is a matroid, we need to verify the following axioms:

Non-empty: The matroid must have at least one subset. Since k ≤ |s|, there is at least one subset of size at most k in s, so the matroid is non-empty.

Hereditary: If B is a subset of A and A ∈ ik, then B ∈ ik. Since A is a subset of s and s is finite, we know that A has at most k elements.

If B is a subset of A, then B also has at most k elements, so B ∈ ik. Therefore, the hereditary property holds.

Exchange property: If A, B ∈ ik with |A| < |B|, then there exists an element x ∈ B \ A such that A ∪ {x} ∈ ik.

Let A and B be two subsets of s with |A| < |B| and A, B ∈ ik. Since A and B are subsets of s, they have at most k elements. Since |A| < |B|, there exists an element x ∈ B \ A, that is, x is an element of B but not of A.

We want to show that A ∪ {x} also has at most k elements. Since A has at most k elements, |A ∪ {x}| ≤ |A| + 1 ≤ k + 1. If |A ∪ {x}| > k, then |A| = k and |A ∪ {x}| = k + 1. But then, |B| = k + 1, which contradicts the assumption that |B| ≤ k.

Therefore, A ∪ {x} has at most k elements, so A ∪ {x} ∈ ik. Thus, the exchange property holds.

Since (s, ik) satisfies all three axioms of a matroid, we can conclude that (s, ik) is a matroid.

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Using the identity sin² t + cos² t = 1, we can simplify this equation: x² + y² = 4 + 4 - 4 sin t, x² + y² = 8 - 4 sin t. So the equation for the circle traced out by these parametric equations is x² + y² = 8 - 4 sin t.

The parametric equations given are:

x = 2cos(t), y = 2 - sin(t)

To find the equation for the curve traced out by these parametric equations, we can eliminate the parameter t by solving one equation for t and then substituting it into the other equation.

First, let's solve for t in the x equation:
x = 2cos(t) → cos(t) = x/2

Now we find sin(t) using the identity sin²(t) + cos²(t) = 1:
sin²(t) = 1 - cos²(t) → sin(t) = ±√(1 - cos²(t)) = ±√(1 - (x/2)²)

Since y = 2 - sin(t), we can substitute sin(t) into the y equation:
y = 2 ± √(1 - (x/2)²)

This equation represents the curve traced out by the given parametric equations.

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[tex] \Large{\boxed{\sf x = -\dfrac{1}{2} \: \: or \: \: x = \dfrac{3}{2}}} [/tex]

[tex] \\ [/tex]

Given equation:

[tex] \sf x^2 - x - \dfrac{3}{4} = 0[/tex]

[tex] \\ [/tex]

Since the highest power of the variable "x" is 2, the equation is a quadratic equation.

We generally solve that kind of equation using the quadratic formula, which is the following:

[tex] \sf x = \dfrac{ - b \pm \sqrt{b^{2} - 4ac}}{2a} [/tex]

We will find the value of the coefficients a,b, and c by comparing our equation to the standard form of a quadratic equation:

[tex] \sf a {x}^{2} + bx + c = 0 \: , where \: a \neq 0.[/tex]

We get:

[tex] \bullet \sf \: a = 1 \: \: \\ \\ \bullet \sf \: b = - 1 \\ \\ \bullet \sf \: c = - \dfrac{3}{4} [/tex]

[tex] \\ [/tex]

Now, let's plug these values in our formula.

[tex] \sf x = \dfrac{ - ( - 1) \pm \sqrt{ { ( - 1)}^{2} - 4(1)( - \frac{3}{4}) }}{2(1)} \\ \\ \\ \implies \sf x = \dfrac{1 \pm \sqrt{1 - ( - 3)}}{2} = \dfrac{1 \pm \sqrt{4}}{2} = \dfrac{1 \pm 2}{2} [/tex]

[tex] \\ [/tex]

Therefore, our solutions will be:

[tex] \sf x_1 = \dfrac{1 - 2}{2} = \boxed{ \sf - \dfrac{1}{2}} \: \: and \: \: x_2 = \dfrac{1 + 2}{2} = \boxed{ \sf \dfrac{3}{2} }[/tex]

[tex] \\ \\ [/tex]

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To find where the function is increasing or decreasing, we need to take the derivative of the function and determine where it is positive or negative.

The derivative of f(x) = x/2 + cos(x) is f'(x) = 1/2 - sin(x).

To find where f'(x) is positive, we need to solve the inequality 1/2 - sin(x) > 0.

Adding sin(x) to both sides, we get 1/2 > sin(x).

This is true on the intervals (0, pi/6) and (5pi/6, 2pi).

To find where f'(x) is negative, we need to solve the inequality 1/2 - sin(x) < 0.

Subtracting 1/2 from both sides, we get -1/2 < -sin(x).

Multiplying both sides by -1 and flipping the inequality, we get sin(x) < 1/2.

This is true on the interval (pi/6, 5pi/6).

Therefore, the function is increasing on the intervals (0, pi/6) and (5pi/6, 2pi), and decreasing on the interval (pi/6, 5pi/6).

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Answer: C.

Step-by-step explanation: The Answer is C. because mean and standard deviation can be used to find the average out of a group of numbers.

The Median and IQR are the better statistics to use to compare the team scores. The correct option is D.

Statistics is a branch of mathematics that deals with the collection, analysis, interpretation, presentation, and organization of data.

It involves using mathematical and computational tools to extract meaning from data and to make informed decisions based on that data.

When comparing team scores, it's critical to consider both the data's centre and spread.

In this instance, Team A has a median score of 41 and an IQR ranging from 39 to 43. The median score for Team B is 42, and their IQR ranges from 40 to 46.

When the medians and IQRs are compared, we can see that Team B has a slightly higher median score and a wider range of scores, ranging from 37 to 47. Team A, on the other hand, has a more narrow range of scores, ranging from 37 to 44.

Thus, the correct option is D.

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[tex] \dfrac{10}{120} = \dfrac{5.2}{x} \\ \\ x = \dfrac{5.2 \times 120}{10} \\ \\ x = 5.2 \times 12 = \red{\fbox{\pink{62.4}}}[/tex]

Height of tree = 62ft and 4inch