a meter in a taxi calculates the fare using the function f(x)=2.56x+2.40. if x represents length what in miles can a passenger travel for $20

The probability of x ≤ 3 successes in 9 independent trials with probability of success 0.4 is approximately 0.57744.

To compute the probability of x successes in n independent trials of a binomial probability experiment, we use the binomial probability formula:

[tex]P(x) = (nC_{X} * p^x * q^(n-x))[/tex]

where n is the number of trials, p is the probability of success on a single trial, q is the probability of failure on a single trial (q = 1-p), and [tex]nC_{x}[/tex] is the number of combinations of n things taken x at a time.

In this case, n = 9, p = 0.4, q = 0.6, and we want to find the probability of x ≤ 3 successes. We can compute this by summing the probabilities of each of the possible outcomes:

P(x ≤ 3) = P(x=0) + P(x=1) + P(x=2) + P(x=3)

Using the binomial probability formula, we get:

[tex]P(x=0) = (9C_{0}) * 0.4^0 * 0.6^9 = 0.01024[/tex]

[tex]P(x=1) = (9C_{1}) * 0.4^1 * 0.6^8 = 0.07680[/tex]

[tex]P(x=2) = (9C_{2}) * 0.4^2 * 0.6^7 = 0.20212[/tex]

[tex]P(x=3) = (9C_{3}) * 0.4^3 * 0.6^6 = 0.28868[/tex]

Therefore,

P(x ≤ 3) = 0.01024 + 0.07680 + 0.20212 + 0.28868 = 0.57744

So the probability of x ≤ 3 successes in 9 independent trials with probability of success 0.4 is approximately 0.57744.

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For the given equation,there is no solution that satisfies the initial condition x(0) = 7.

What is equation?

An equation is a statement that shows the equality between two expressions, typically separated by an equals sign. Equations are used to represent relationships between variables or quantities, and solving an equation involves finding the values of the variables that satisfy the equality.

We start by separating the variables:

[tex]dx/dt = x^2/125\\\\(125/x^2) dx = dt[/tex]

Integrating both sides gives:

-125/x = t + C

where C is the constant of integration. To find C, we use the initial condition x(0) = 7:

-125/7 = 0 + C

C = -125/7

Substituting this back into our equation, we have:

-125/x = t - 125/7

Solving for x, we get:

x = 125/(t - 125/7)

This is the general solution to the differential equation. To find the particular solution that satisfies the initial condition x(0) = 7, we substitute t = 0 and x = 7 into the general solution:

7 = 125/(0 - 125/7)

7 = 125/( - 125/7)

7 = -7

This is a contradiction, which means that there is no solution that satisfies the initial condition x(0) = 7.

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An advantage of using graphs and diagrams is B. They help to visualize the problem.

Graphs and diagrams are pictorial representations of data.

Graphs represent information using lines on two or three axes such as x, y, and z.

On the other hand, diagrams show the simple pictorial representation of what a thing looks like or how it works.

Graphs are scaled while diagrams may not be scaled.

Thus, we use graphs and diagrams to visualize data and information.

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However, it does not appear to be a familiar series, and finding an exact sum may be difficult or impossible.

To determine the convergence of the series, we can use the limit comparison test.

Let's compare the given series with the series 1/n^2, since both of them have positive terms.

lim n→∞ ln[(n^2+8)/(3n^2+1)] / (1/n^2)

= lim n→∞ [ln(n^2+8) - ln(3n^2+1)] / (1/n^2)

= lim n→∞ [(2n/(n^2+8)) - (6n/(3n^2+1))] * n^2

= lim n→∞ [2/(1+(8/n^2)) - 6/(3+(1/n^2))]

The limit of this expression can be evaluated by dividing the numerator and denominator by n^2, which gives:

lim n→∞ [2/(1+(8/n^2)) - 6/(3+(1/n^2))]

= lim n→∞ [2/(n^2/n^2+(8/n^2)) - 6/(n^2/n^2+(3/n^2))]

= lim n→∞ [2/(1+(8/n^2)) - 6/(1+(3/n^2))] * (1/n^2)

Now we can see that the limit is of the form (finite number) * (1/n^2), which goes to zero as n approaches infinity. Therefore, by the limit comparison test, since the series 1/n^2 is convergent (p-series with p=2), the given series is also convergent.

Since the series is convergent, we can find its sum using any appropriate method. However, it does not appear to be a familiar series, and finding an exact sum may be difficult or impossible.

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The area of the region that lies inside the first curve and outside the second curve. r = 3 − 3 sin(), r = 3 is 9π/2.

The two polar curves given are:

r1 = 3 - 3sin(θ)

r2 = 3

The region that lies inside the first curve and outside the second curve is the region bounded by these two curves. To find the area of this region, we need to integrate the area element over the region.

The area element in polar coordinates is given by dA = r dr dθ. Therefore, the area of the region can be computed as:

A = ∫θ1^θ2 ∫r2^r1 r dr dθ

where θ1 and θ2 are the angles at which the two curves intersect.

To find the intersection points, we set the two equations equal to each other:

3 - 3sin(θ) = 3

Simplifying, we get:

sin(θ) = 0

which implies that θ = 0 or θ = π.

Therefore, the integral becomes:

A = ∫0^π ∫3-3sin(θ)^3 r dr dθ

= ∫0^π [(1/2)r^2]_3-3sin(θ) dθ

= (1/2) ∫0^π (9 - 18sin(θ) + 9sin(θ)^2) dθ

= (1/2) [9θ + 6cos(θ) - 9sin(θ)]_0^π

= 9π/2

Therefore, the area of the region that lies inside the first curve and outside the second curve is 9π/2.

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The partial fraction decomposition for this integrand will have the form:
x2 − 2x − 1 = A/(x-1) + B/(x-1)

Once we find A and B, we can substitute them back into the original equation and integrate each term separately. This will allow us to evaluate the integral of x2 − 2x − 1 using the partial fraction decomposition.

To perform a partial fraction decomposition on the integrand x2 − 2x − 1, we first need to factor the denominator into linear factors. The quadratic x2 − 2x − 1 can be factored as (x-1)(x-1), which means we have a repeated linear factor of (x-1).

To decompose this, we need to write it in the form of a fraction with a numerator and denominator. The numerator will have a constant term for each repeated linear factor, and the denominator will be the product of each linear factor.

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we have shown that n is divisible by d, which means that d | n.

What is Derivation ?

Derivation is a mathematical technique used to find the rate at which a function changes. In other words, it is a method for calculating the instantaneous rate of change of a function at a particular point. Derivation is an important tool in calculus, and it has a wide range of applications in fields such as physics, engineering, and economics.

We are given that dc | nc, which means that there exists an integer k such that nc = k(dc).

We need to show that d | n, which means that there exists an integer m such that n = md.

We can start by dividing both sides of the given equation nc = k(dc) by c:

n = k(d)

Since d and k are integers, their product k(d) is also an integer, which means that n is an integer.

Therefore, we have shown that n is divisible by d, which means that d | n.

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The data described is a combination of both nominal and ordinal data. In the first round of the spelling bee is nominal data, and in the last round of the spelling bee is ordinal data.

The first round of the spelling bee is nominal data as it is a categorical variable that describes the order in which the participants ranked in that round. The first round did not have a specific rank or order, it was simply a categorical grouping. However, the last round of the spelling bee is an example of ordinal data as it is based on a specific order or rank. The participant came in first place in the last round, which is an example of ordinal data.

Ordinal data is a type of data that represents a specific order or ranking, while nominal data represents a categorical grouping. In the context of the spelling bee, the first round is an example of nominal data because it is simply a grouping of participants who performed in a certain way. In contrast, the last round of the spelling bee is an example of ordinal data because it involves a specific ranking or order that the participants achieved.

As it involves both categorical groupings and specific rankings. Understanding the difference between nominal and ordinal data is important when analyzing and interpreting data, as it can affect the statistical methods and techniques used to analyze the data.

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The calculated total weight of the fruit is 50 2/5 pounds

From the question, we have the following parameters that can be used in our computation:

This means that

Banana = 6 * Apple

So, we have

Banana = 6 * 7 2/10 pounds.

Evaluate the products

Banana = 43 2/10 pounds.

So, the total weight is

total weight = apple + banana

This gives

total weight = 7 2/10 + 43 2/10

Evaluate the sum

total weight = 50 4/10

Simplify

total weight = 50 2/5

Hence, the total weight is 50 2/5 pounds

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For the linear transformation T that rotates points about some line through the origin, an eigenvalue of A is 1. The eigenspace associated with this eigenvalue is the subspace of all vectors parallel to the axis of rotation.

Since T is a rotation about some line through the origin, it has an axis of rotation, which is the line through the origin that remains fixed by the transformation.

Any vector on this line will be an eigenvector of the transformation with eigenvalue 1, since it remains fixed under the transformation.

Therefore, an eigenvalue of A is 1. The eigenspace corresponding to this eigenvalue is the subspace spanned by the axis of rotation.

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The derivative of f(x)=4/3x⁵/4 at the point x=4 is 5.06.

This is found by using the power rule, which states that the derivative of xⁿ is n*xⁿ⁻¹. In this case, we have n=5/4, so the derivative is (5/4)*(4/3)*4¹/⁴ = 5.06.

The power rule is a common method for finding derivatives of functions with powers. It states that if f(x) = xⁿ, then f'(x) = nxⁿ⁻¹. Using this rule, we can find the derivative of f(x)=4/3x⁵/4 by first multiplying the constant 4/3 by the power of x, which gives 4/3 * (5/4)x⁽⁵/⁴⁻¹⁾. Simplifying this expression gives us the derivative f'(x) = (5/3)x¹/⁴.

To find the value of the derivative at x=4, we simply plug in x=4 to get f'(4) = (5/3)4¹/⁴ = 5.06 (rounded to two decimal places). This tells us the rate of change of the function at the specific point x=4.

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C-Child ticket

4C-Adult tickets

6.10C+9.90(4C)=1188.20

6.10C+39.60C=1188.20

45.70C=1188.20

Divide both sides by 45.70 to get C.

C=26

This means 26 child tickets were sold that day.

Let's check our answer:

26×6.10=158.60

26×4=104 (Adult tickets)

104×9.90=1029.60

158.60+1029.60=1188.20

Therefore, 26 child tickets were sold on Friday.

The equation of the plane with normal vector =⟨−5,2,5⟩ passing through the point =(4,1,8) in scalar form is 5x + 2y + 5z = 22.

1. Recall the equation of a plane in scalar form: Ax + By + Cz = D, where ⟨A, B, C⟩ is the normal vector of the plane, and (x, y, z) are the coordinates of any point on the plane.

2. In this case, the normal vector is given as ⟨−5, 2, 5⟩. Therefore, A = -5, B = 2, and C = 5.

3. The plane passes through the point (4, 1, 8). We can use this point to find the value of D. Substitute the point's coordinates into the equation: -5(4) + 2(1) + 5(8) = D.

4. Calculate the value of D: -20 + 2 + 40 = 22.

5. Now, we can write the equation of the plane in scalar form using the values of A, B, C, and D: -5x + 2y + 5z = 22.

So, the equation of the plane with normal vector ⟨−5, 2, 5⟩ passing through the point (4, 1, 8) in scalar form is: -5x + 2y + 5z = 22.

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The probability of drawing a yellow marble, holding on to it, and then drawing a red marble is approximately 0.1667 or 16.67%.

To find the probability of drawing a yellow marble, holding on to it, and then drawing a red marble, we need to calculate the probability of each event occurring and then multiply the probabilities together, since the events are dependent.

First, let's find the probability of drawing a yellow marble. There are 5 + 1 + 8 + 2 = 16 marbles in total, and 8 of them are yellow. Therefore, the probability of drawing a yellow marble is:

P(Yellow) = 8/16 = 1/2

Next, we need to find the probability of drawing a red marble after drawing a yellow marble and holding on to it. After drawing a yellow marble, there are 15 marbles left in the bag, and 5 of them are red. Therefore, the probability of drawing a red marble after drawing a yellow marble and holding on to it is:

P(Red|Yellow) = 5/15 = 1/3

Finally, we can find the probability of both events occurring by multiplying the probabilities together:

P(Yellow and Red) = P(Yellow) x P(Red|Yellow)

P(Yellow and Red) = (1/2) x (1/3) = 1/6

Therefore, the probability of drawing a yellow marble, holding on to it, and then drawing a red marble is 1/6, or approximately 0.167.

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The total area under a density curve is always equal to 1.

So, the correct answer is (c) 1.

The area under the curve represents the probability of all possible outcomes, and the total probability is always 1.

A density curve is a graphical representation of a numerical distribution where the outcomes are continuous. In other words, a density curve is the graph of a continuous distribution. This means that density curves can represent measurements such as time and weight (which are continuous), and NOT situations such as rolling a die (which would be discrete).

Density curves lie above or on a horizontal line, as displayed in the bell shaped "normal distribution" (one of the most common density curves).

Hence the answer is 1

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The correct answer to convert 20 inches to feet using dimensional analysis is B. Divide 20 inches by 1ft/12 in.

To convert 20 inches to feet using dimensional analysis, we need to set up a conversion factor that relates inches to feet. We know that there are 12 inches in one foot, so we can write the conversion factor as 1 ft / 12 in. We want to cancel out the units of inches, so we can write 20 inches as 20 in / 1. Then, we can multiply 20 in / 1 by our conversion factor, making sure that the units cancel out appropriately:

20 in / 1 × 1 ft / 12 in = 20/12 ft

Simplifying, we get:

20 in / 1 × 1 ft / 12 in = 1.67 ft

Therefore, 20 inches is equal to 1.67 feet when using dimensional analysis and dividing by the conversion factor of 1ft/12in.

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To solve the given 1-dimensional heat equation problem, we can use the method of separation of variables. The problem is defined as follows:

Partial Differential Equation (PDE): ∂u/∂t = α^2 ∂^2u/∂x^2, for t > 0 and 0 < x < 5.

Boundary conditions:
1. u(0, t) = 0
2. u(5, t) = 0

Initial condition: u(x, 0) = f(x) = -4 sin(Tx) + 3 sin(27x), for 0 < x < 5.

To solve this problem, perform the following steps:

1. Assume a solution in the form u(x, t) = X(x)T(t).
2. Substitute this solution into the PDE and separate the variables.
3. Solve the resulting ordinary differential equations (ODEs) for X(x) and T(t) subject to the given boundary conditions.
4. Obtain the general solution by summing the product of the separated solutions X_n(x)T_n(t) with appropriate coefficients.
5. Determine the coefficients by applying the initial condition and using Fourier series representation.

Since the problem is well-posed, a unique solution exists.

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Answer:

Step-by-step explanation:

The point (6, 1) is not a solution to the system.

(6, 1) lays on the dotted line.

The correct answer is gcd(Greatest common divisor)  and lcm(least common multiple) of 1000 and 625.

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Answer:

b

Step-by-step explanation:

The values of dy and δy for the function y=e3x 5x given x=0 and δx=dx=0.03 are:
dy = 0.6
δy = 0.6

To compute the values of dy and δy for the function y=e3x 5x given x=0 and δx=dx=0.03, we need to use the formula for the total differential of a function:

dy = (∂y/∂x)dx

where ∂y/∂x is the partial derivative of y with respect to x.

In this case, we have:

y = e3x 5x

∂y/∂x = 3e3x 5x + e3x 5

At x=0, this becomes:

∂y/∂x = 3(1) 5 + (1) 5 = 20

So, we can now calculate dy:

dy = (∂y/∂x)dx = (20)(0.03) = 0.6

This means that when x changes by 0.03, y changes by 0.6.

To calculate δy, we need to use the formula:

δy = |(∂y/∂x)δx|

where δx is the uncertainty in x.

In this case, we have:

δy = |(20)(0.03)| = 0.6

So, the uncertainty in y is also 0.6.

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Answer:

x=8inches²/6+x

Step-by-step explanation:

Area Photo: 1/2 area entire ad

Area photo: 4inch*2inch= 8inch²

Area entire ad=8inch²*2=16inch²

as you can see in the photo, we can use the data to our advantage.

The area left that's not the photo is (4*x) +(x*x)+(2*x).

so that leaves us with the equation 8inch²=4x+2x+x²

8inch²=6x+x²

x(6+x)=8inch²

x=(8inch²)/(6+x)

A dependent variable is also known as a(n) c. response variable.

In experimental or research studies, the dependent variable is the variable being measured or observed by the researcher. It is called a dependent variable because it is believed to depend on or be influenced by the independent variable, which is the variable that is manipulated or controlled by the researcher.

For example, if a researcher wants to study the effect of a new drug on blood pressure, the dependent variable would be the blood pressure readings of the study participants, while the independent variable would be the administration of the new drug.

Understanding the concept of dependent variables is crucial in designing and conducting valid research studies. Researchers must carefully identify and define their dependent variables to ensure that they are measuring what they intend to measure and that their findings are accurate and reliable.

Additionally, understanding dependent variables can help researchers interpret and draw meaningful conclusions from their data.

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The bias of mu1 is 0, the variance of mu1 is 1/2, and the mean squared error of mu1 is 1/2.

To find the bias, variance, and mean squared error of mu1:

We can use the following formulas:
Bias = E[mu1] - mu
Variance = Var[mu1]
MSE = E[(mu1 - mu)^2]
First, let's find E[mu1]:
E[mu1] = E[(x1 + x2)/2]
Since x1 and x2 are independent, their expected values are equal to mu:
E[x1] = E[x2] = mu
Therefore, E[mu1] = E[(x1 + x2)/2] = (E[x1] + E[x2])/2 = mu.
Next, let's find Var[mu1]:
Var[mu1] = Var[(x1 + x2)/2]
Since x1 and x2 are independent, their variances are both equal to (sigma)^2 = 1:
Var[x1] = Var[x2] = (sigma)^2 = 1
Therefore, Var[mu1] = Var[(x1 + x2)/2] = (1/4)*Var[x1] + (1/4)*Var[x2] = 1/2.
Finally, let's find MSE:
MSE = E[(mu1 - mu)^2]
= E[(x1 + x2)/2 - mu)^2]
= E[((x1 - mu) + (x2 - mu))/2]^2
= E[(x1 - mu)^2 + 2(x1 - mu)(x2 - mu) + (x2 - mu)^2]/4
= (E[(x1 - mu)^2] + E[(x2 - mu)^2] + 2E[(x1 - mu)(x2 - mu)])/4
= (Var[x1] + Var[x2] + 2Cov[x1,x2])/4
Since x1 and x2 are independent, their covariance is 0:
Cov[x1,x2] = E[(x1 - mu)(x2 - mu)]

= E[x1x2 - mu(x1 + x2) + mu^2]

= E[x1]E[x2] - mu(E[x1] + E[x2]) + mu^2
= mu^2 - mu^2 - mu^2 + mu^2 = 0
Therefore, MSE = (Var[x1] + Var[x2])/4 = 1/2.
In summary, the bias of mu1 is 0, the variance of mu1 is 1/2, and the mean squared error of mu1 is 1/2.

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The series∑[n=1 to [infinity]] ln(n/(n+3)) converges with a convergent value of 1/2.

To determine whether the given series converges, we can use the comparison test. The series is:
∑[n=1 to infinity] ln(n/(n+3))
Step 1: Find a comparable series
We can compare it to the series ∑[n=1 to infinity] (1/n - 1/(n+3)) since the logarithm function is monotonic.
Step 2: Perform the comparison test
Since ln(n/(n+3)) is between 1/n and 1/(n+3), the series becomes:
∑[n=1 to infinity] (1/n - 1/(n+3))
Step 3: Check for telescoping series
This is a telescoping series, which means that some terms will cancel out others.
The partial sum is:
(1 - 1/4) + (1/2 - 1/5) + (1/3 - 1/6) + ...
The terms cancel out like this:
[1 - (1/2 + 1/4)] + [(1/2 - 1/4) - (1/4 + 1/5)] + ...
So the series converges and has the value:
Value if convergent = 1 - 1/2 = 1/2

Your answer: Converges (y), Value if convergent: 1/2

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The series∑[n=1 to [infinity]] ln(n/(n+3)) converges with a convergent value of 1/2.

To determine whether the given series converges, we can use the comparison test. The series is:
∑[n=1 to infinity] ln(n/(n+3))
Step 1: Find a comparable series
We can compare it to the series ∑[n=1 to infinity] (1/n - 1/(n+3)) since the logarithm function is monotonic.
Step 2: Perform the comparison test
Since ln(n/(n+3)) is between 1/n and 1/(n+3), the series becomes:
∑[n=1 to infinity] (1/n - 1/(n+3))
Step 3: Check for telescoping series
This is a telescoping series, which means that some terms will cancel out others.
The partial sum is:
(1 - 1/4) + (1/2 - 1/5) + (1/3 - 1/6) + ...
The terms cancel out like this:
[1 - (1/2 + 1/4)] + [(1/2 - 1/4) - (1/4 + 1/5)] + ...
So the series converges and has the value:
Value if convergent = 1 - 1/2 = 1/2

Your answer: Converges (y), Value if convergent: 1/2

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The derivative of the cross product u(t) × v(t) with respect to t is given by:

d/dt [u(t) × v(t)] = [d/dt u(t)] × v(t) + u(t) × [d/dt v(t)]

Using the given functions, we have:

d/dt [u(t) × v(t)] = [leftangle0.gif 8cos(8t), 8sin(8t), 1 rightangle0.gif] × [t, cos(8t), sin(8t)] + [sin(8t), cos(8t), t] × [leftangle0.gif -8sin(8t), 8cos(8t), 0 rightangle0.gif]

Simplifying this expression, we get:

d/dt [u(t) × v(t)] = [8t, -8sin^2(8t), 8cos^2(8t)] + [8sin(8t), 8cos^2(8t), -8sin^2(8t)]

Therefore, the derivative of the cross product is:

d/dt [u(t) × v(t)] = [8t + 8sin(8t), 8cos^2(8t) - 8sin^2(8t), 8cos^2(8t) - 8sin^2(8t)]

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The correct answer is 9.

To find the limit of lim x→0 sin(8x) tan(9x), we can use the fact that sin(8x)/x → 8 as x → 0 and tan(9x)/x → 9 as x → 0. Therefore, the limit becomes:

lim x→0 sin(8x) tan(9x) = lim x→0 (8x/8) (9x/tan(9x))
= 72 lim x→0 (sin(8x)/(8x)) (x/tan(9x))

Using L'Hospital's rule on the first factor, we get:
lim x→0 sin(8x)/(8x) = lim x→0 (cos(8x))/8 = 1/8

Using L'Hospital's rule again on the second factor, we get:
lim x→0 x/tan(9x) = lim x→0 (1/cos^2(9x)) = 1

Therefore, the overall limit is:
lim x→0 sin(8x) tan(9x) = 72 (1/8) (1) = 9

So, the correct answer is 9.

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A function can maintain similarity when it undergoes specific transformations that do not alter its overall shape. These

transformations include translations, reflections, and dilations.

Similar functions can be described as functions that have the same shape but may differ in size, position, or orientation.

1. Functions maintain similarity through specific transformations:

a. Translations: Functions can be shifted horizontally or vertically without changing their shape.

b. Reflections: Functions can be reflected over the x-axis or y-axis, and their shape remains the same.

c. Dilations: Functions can be scaled by a constant factor, which changes their size but maintains their shape.

2. To describe similar functions, we can observe the following characteristics:

a. They have the same shape.

b. They may differ in size due to dilations (scaling by a constant factor).

c. Their position or orientation may differ due to translations and reflections.

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Answer:

20

Step-by-step explanation:

formula is 1/2(a+b)xh

a is long base b is short base

h is for height

since

a= 3

b=2

h=8

1/2(3+2)x8

so it be 5/2x8

so it be 5x 4 because 2 divide 8 which make it 4 then time it with 5

so answer is 20

part a.   the total bus fare cost for Mrs Themba's family per week is R337.

part b. The cost per bus trip per child is found to be around R9.50.

Cost is described as an amount that has to be paid or spent to buy or obtain something.

The cost of a weekly bus pass from Blue Downs to Rondebosch =  R109.

We then find the , the total cost per week for Mrs. Theba's family

1 x R109+ 2 x R114  = R337

part b.

The cost of a weekly bus pass from Bellville to Cape Town =  R95.

We find the cost per bus trip per child as:

R95 /  10 = R9.50

So in conclusion,  the cost per bus trip per child is R9.50.

Learn more about cost at: https://brainly.com/question/25109150

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