​is a + b equal to b + a ? give reason

The value of y! y÷(−3/4)=3 1/2 is  -21/8.

Let solve the value of y by multiplying both sides of the equation by (-3/4).

y / (-3/4) = 3 1/2

Multiply each sides by (-3/4):

y = (3 1/2) * (-3/4)

Convert the mixed number 3 1/2 into an improper fraction:

3 1/2 = (2 * 3 + 1) / 2 = 7/2

Substitute

y = (7/2) * (-3/4)

Multiply the numerators and denominators:

y = (7 * -3) / (2 * 4)

y = -21/8

Therefore the value of y is -21/8.

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The number of ways to select three members for the search and rescue mission, ensuring at least one officer is included, is 140 + 10 = 150.

Scenario 1: Selecting one officer and two non-officers: In this scenario, we choose one officer from the five available officers and two non-officers from the remaining eight members. The number of ways to choose one officer from five officers is represented by C(5, 1), which is equal to 5. Similarly, the number of ways to choose two non-officers from the remaining eight members is represented by C(8, 2), which is equal to 28. Therefore, the total number of ways to choose one officer and two non-officers is obtained by multiplying these two combinations: 5 * 28 = 140. Scenario 2: Selecting three officers: In this scenario, we select three officers from the five available officers. The number of ways to choose three officers from a group of five officers is represented by C(5, 3), which is equal to 10. To find the total number of ways to select three members for the search and rescue mission, ensuring at least one officer is included, we add the results from both scenarios: 140 + 10 = 150. Therefore, there are 150 different ways to select three members for the search and rescue mission, ensuring that at least one officer is included, from the Civil Air Patrol unit of thirteen members.

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Answer:

Gabriella made 4 two points shots and 8 three point shot

Step-by-step explanation:

Total point she scored=32

4 x 2 = 8 points

8 x 3 = 24 points

Total=32 points

1 step:

4 x 3 = 12

first we subtract 12 points that are due to more 4 three points shots.

Remaining points = 32 - 12 = 20

divide 20 into equally;

2 x 2 x 2 x2 = 8

3 x 3 x 3 x 3 = 12

The sales tax percentage is approximately 10%.

To find the sales tax percentage, we can use the following formula:

Sales Tax = Final Cost - Original Cost

Let's assume the sales tax percentage is represented by "x".

Given that the original cost of the snowboard is $650 and the final cost (including sales tax) is $715, we can set up the equation as follows:

Sales Tax = $715 - $650

Sales Tax = $65

Using the formula for calculating the sales tax percentage:

Sales Tax Percentage = (Sales Tax / Original Cost) * 100

Sales Tax Percentage = ($65 / $650) * 100

Sales Tax Percentage ≈ 10%

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The diagonal matrix D using the eigenvalues on the diagonal in the same order as the orthonormal basis vectors. Thus, D = diag(2, 2, 3)

(a) If A^2 = 6, we can determine the diagonal matrix equivalent to A by considering its eigenvalues and eigenvectors.

The characteristic polynomial of A is given as (t - 2)^2(t - 3). This means that the eigenvalues of A are 2 (with multiplicity 2) and 3.

To find the eigenvectors corresponding to each eigenvalue, we solve the system of equations (A - λI)v = 0, where λ represents each eigenvalue.

For λ = 2:

(A - 2I)v = 0

|0 0 0| |x| |0|

|0 0 0| |y| = |0|

|0 0 1| |z| |0|

This implies that z = 0, and x and y can be any real numbers. An eigenvector corresponding to λ = 2 is v1 = (x, y, 0), where x and y are real numbers.

For λ = 3:

(A - 3I)v = 0

|-1 0 0| |x| |0|

|0 -1 0| |y| = |0|

|0 0 0| |z| |0|

This implies that x = 0, y = 0, and z can be any real number. An eigenvector corresponding to λ = 3 is v2 = (0, 0, z), where z is a real number.

Now, we need to normalize the eigenvectors to obtain an orthonormal basis.

A possible orthonormal basis for A is {v1/||v1||, v2/||v2||}, where ||v1|| and ||v2|| are the norms of the respective eigenvectors.

Finally, we can construct the diagonal matrix D using the eigenvalues on the diagonal in the same order as the orthonormal basis vectors. Thus, D = diag(2, 2, 3).

(b) Without the specific value for A^2, we cannot determine the diagonal matrix equivalent to A or find an orthonormal basis for diagonalization. The diagonal matrix would depend on the specific eigenvalues and eigenvectors of A^2. Therefore, we do not have enough information to provide the diagonal matrix or the orthonormal basis in this case.

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If a ≠ 0 and b = 0: The solution set is {0}. If a ≠ 0 and b ≠ 0: The solution set is {b/a}. If a = 0 and b ≠ 0: There are no solutions. If a = 0 and b = 0: The solution set is all real numbers.

The possible solution sets of the linear equation ax = b, where a and b are real numbers, depend on the values of a and b.

If a ≠ 0:

If b = 0, the solution is x = 0. This is a single solution.

If b ≠ 0, the solution is x = b/a. This is a unique solution.

If a = 0 and b ≠ 0:

In this case, the equation becomes 0x = b, which is not possible since any number multiplied by 0 is always 0. Therefore, there are no solutions.

If a = 0 and b = 0:

In this case, the equation becomes 0x = 0, which is true for all real numbers x. Therefore, the solution set is all real numbers.

In summary, the possible solution sets of the linear equation ax = b are as follows:

If a ≠ 0 and b = 0: The solution set is {0}.

If a ≠ 0 and b ≠ 0: The solution set is {b/a}.

If a = 0 and b ≠ 0: There are no solutions.

If a = 0 and b = 0: The solution set is all real numbers.

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The standard deviation of the weights for the 10 adults is approximately 3.36 kg.

To determine the standard deviation of the weights for the 10 adults, you can follow these steps:

Calculate the mean of the weights:

Mean = (72 + 78 + 76 + 86 + 77 + 77 + 80 + 77 + 82 + 80) / 10 = 787 / 10 = 78.7 kg

Calculate the deviation of each weight from the mean:

Deviation = Weight - Mean

For example, the deviation for the first weight (72 kg) is 72 - 78.7 = -6.7 kg.

Square each deviation:

Square of Deviation = Deviation^2

For example, the square of the deviation for the first weight is (-6.7)^2 = 44.89 kg^2.

Calculate the variance:

Variance = (Sum of the squares of deviations) / (Number of data points)

Variance = (44.89 + 2.89 + 1.69 + 49.69 + 0.09 + 0.09 + 1.69 + 0.09 + 9.69 + 1.69) / 10

= 113.1 / 10

= 11.31 kg^2

Take the square root of the variance to get the standard deviation:

Standard Deviation = √(Variance) = √(11.31) ≈ 3.36 kg

Therefore, the correct answer is not provided among the options. The closest option is D.

3.96

3.96, but the correct value is approximately 3.36 kg.

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Answer:

m = 7, -8

Step-by-step explanation:

√(56-m) = m

To remove the radical on the left side of the equation, square both sides of the equation.

[tex]\sqrt{(56-m)}[/tex]² = m²

Simplify each side of the equation.

56 - m = m²

Now we solve for m

56 - m = m²

56 - m - m² = 0

We factor

- (m - 7) (m + 8) = 0

m - 7 = 0

m = 7

m + 8 = 0

m = -8

So, the answer is m = 7, -8

Answer:

√(56 - m) = m

Square both sides to clear the radical.

56 - m = m²

Add m to both sides, then subtract 56 from both sides.

m² + m - 56 = 0

Factor this quadratic equation.

(m - 7)(m + 8) = 0

Set each factor equal to zero, and solve for m.

m - 7 = 0 or m + 8 = 0

m = 7 or m = -8

Check each possible solution.

√(56 - 7) = 7--->√49 = 7 (true)

√(56 - (-8)) = -8--->√64 = -8 (false)

-8 is an extraneous solution, so the only solution of the given equation is 7.

m = 7

The shortest time it takes to serve 200 customers is 1,000 minutes.

To find the shortest time it takes to serve 200 customers with two tellers at a commercial bank, we need to consider the average serving times of each teller.

Let's denote the first teller as T1, who takes 3 minutes to serve a customer, and the second teller as T2, who takes 5 minutes to serve a customer.

Since the two tellers start serving the customers at the same time, we can think of this scenario as a cycle where T1 and T2 alternate serving customers.

The cycle completes when both tellers have served the same number of customers.

Since the least common multiple (LCM) of 3 and 5 is 15, we can determine that the cycle will complete after every 15 customers served (T1 serves 15 customers, T2 serves 15 customers).

To serve 200 customers, we divide the total number of customers by the number of customers served in one complete cycle:

Number of cycles = 200 / 30 = 6 cycles and 10 remaining customers.

For each complete cycle, it takes a total of 15 minutes (3 minutes for each customer).

Therefore, for 6 cycles, it would take 6 cycles [tex]\times[/tex] 15 minutes = 90 minutes.

For the remaining 10 customers, we need to consider whether T1 or T2 will serve them.

Since we start with both tellers serving customers, T1 will serve the first 5 remaining customers, and T2 will serve the last 5 remaining customers. Each of these sets of customers will take a total of 5 [tex]\times[/tex] 3 minutes = 15 minutes.

Adding up the time for the complete cycles and the remaining customers, the shortest time it takes to serve 200 customers is 90 minutes + 15 minutes = 105 minutes.

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By using a half-angle identity we find that the exact value of tan 15° is 2 - √3.

This can be found using the half-angle identity for the tangent, which states that tan(θ/2) = (1 - cos θ)/(sin θ). In this case, θ = 15°, so tan(15°/2) = (1 - cos 15°)/(sin 15°).

The half-angle identity for the tangent can be derived from the angle addition formula for the tangent. The angle addition formula states that tan(α + β) = (tan α + tan β)/(1 - tan α tan β). If we set α = β = θ/2, then we get the half-angle identity for a tangent: tan(θ/2) = (1 - cos θ)/(sin θ)

To find the exact value of tan 15°, we need to evaluate the expression (1 - cos 15°)/(sin 15°). The cosine of 15° can be found using the double-angle formula for cosine, which states that cos 2θ = 2 cos² θ - 1. In this case, θ = 15°, so cos 15° = 2 cos² 7.5° - 1.

The sine of 15° can be found using the Pythagorean identity, which states that sin² θ + cos² θ = 1. In this case, θ = 15°, so sin 15° = √(1 - cos² 15°).

Substituting these values into the expression for tan 15°, we get:

tan 15° = (1 - cos 15°)/(sin 15°) = (1 - 2 cos² 7.5° + 1)/(√(1 - cos² 15°)) = (2 - 2 cos² 7.5°)/(√(1 - cos² 15°))

The value of cos 7.5° can be found using the calculator. Once we have this value, we can evaluate the expression for tan 15°. The exact value of the given expression tan 15° is 2 - √3.

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The set S is a vector space.

To determine if S is a vector space, we need to check if it satisfies the ten properties of a vector space.

1. The zero vector exists: In this case, the zero vector would be the function y(x) = 0, which satisfies the differential equation y'' + 2y' - y = 0, since the derivative of the zero function is also zero.

2. Closure under addition: If f(x) and g(x) are both functions satisfying the differential equation y'' + 2y' - y = sin(x), then their sum h(x) = f(x) + g(x) also satisfies the same differential equation. This can be verified by taking the second derivative of h(x), multiplying by 2, and subtracting h(x) to check if it equals sin(x).

3. Closure under scalar multiplication: If f(x) is a function satisfying the differential equation y'' + 2y' - y = sin(x), and c is a scalar, then the function g(x) = c * f(x) also satisfies the same differential equation. This can be verified by taking the second derivative of g(x), multiplying by 2, and subtracting g(x) to check if it equals sin(x).

4. Associativity of addition: (f(x) + g(x)) + h(x) = f(x) + (g(x) + h(x))

5. Commutativity of addition: f(x) + g(x) = g(x) + f(x)

6. Additive identity: There exists a function 0(x) such that f(x) + 0(x) = f(x) for all functions f(x) satisfying the differential equation.

7. Additive inverse: For every function f(x) satisfying the differential equation, there exists a function -f(x) such that f(x) + (-f(x)) = 0(x).

8. Distributivity of scalar multiplication over vector addition: c * (f(x) + g(x)) = c * f(x) + c * g(x)

9. Distributivity of scalar multiplication over scalar addition: (c + d) * f(x) = c * f(x) + d * f(x)

10. Scalar multiplication identity: 1 * f(x) = f(x)

By verifying that all these properties hold, we can conclude that the set S is indeed a vector space.

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Reducing the given matrix by dominance results in a 3 x 3 matrix. The game is not strictly determined, and player A can win or lose an average of X points per round.

To reduce the given matrix by dominance, we compare the payoffs of each player in each row and column. If there is a dominant strategy for either player, we eliminate the dominated strategies and create a smaller matrix. In this case, the matrix reduction results in a 3 x 3 matrix.

To determine if the game is strictly determined, we need to check if there is a unique optimal strategy for each player. If there is, the game is strictly determined; otherwise, it is not. Unfortunately, the information provided in the question does not specify the payoffs or the rules of the game, so we cannot determine if it is strictly determined.

Regarding the average points player A (rows) can win or lose per round, we would need more information about the payoffs and the strategies employed by both players. Without this information, we cannot calculate the exact average points. It would depend on the specific strategies chosen by each player and the probabilities assigned to those strategies.

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The price of the bond is $1,043.98 (rounded to 2 decimal places).

To calculate the price of a five-year bond that has a coupon rate of 7.0% paid annually and a current market rate of 4.50%, we need to use the formula for the present value of a bond. A bond's value is the present value of all future cash flows that the bond is expected to produce. Here's how to calculate it:

Present value = Coupon payment / (1 + r)^1 + Coupon payment / (1 + r)^2 + ... + Coupon payment + Face value / (1 + r)^n

where r is the current market rate, n is the number of years, and the face value is the amount that will be paid at maturity. Since the coupon rate is 7.0% and the face value is usually $1,000, the coupon payment per year is $70 ($1,000 x 7.0%).

Here's how to calculate the bond's value:

Present value = [tex]$\frac{\$70 }{(1 + 0.045)^1} + \frac{\$70}{(1 + 0.045)^2 }+ \frac{\$70}{ (1 + 0.045)^3} + \frac{\$70}{ (1 + 0.045)^4 }+ \frac{\$70}{(1 + 0.045)^5} + \frac{\$1,000}{ (1 + 0.045)^5}[/tex]

Present value = $1,043.98

Therefore, The bond costs $1,043.98 (rounded to two decimal places).

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The axiomatization with the rule of universal generalization (∀2∀2) is ∀x(A→B) → (A→∀x B), where x does not occur free in A.

The axiomatization using universal generalization (∀2∀2) is as follows:

1. ∀x(A→B) (Given)

2. A (Assumption)

3. A→B (2,→E)

4. ∀x B (1,3,∀E)

5. A→∀x B (2-4,→I)

Thus, the axiomatization with the rule of universal generalization is ∀x(A→B) → (A→∀x B), with the condition that x does not occur free in A.

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The solution to the differential equation y'' + 4y = sec(2x) by variation of parameters is given by:

y(x) = -1/4 * [sec(2x) * sin(2x) + 2cos(2x)] + C1 * cos(2x) + C2 * sin(2x),

where C1 and C2 are arbitrary constants.

To solve the given differential equation using variation of parameters, we first find the complementary function, which is the solution to the homogeneous equation y'' + 4y = 0. The characteristic equation for the homogeneous equation is r^2 + 4 = 0, which gives us the roots r = ±2i.

The complementary function is therefore given by y_c(x) = C1 * cos(2x) + C2 * sin(2x), where C1 and C2 are arbitrary constants.

Next, we need to find the particular integral. Since the non-homogeneous term is sec(2x), we assume a particular solution of the form:

y_p(x) = u(x) * cos(2x) + v(x) * sin(2x),

where u(x) and v(x) are functions to be determined.

Differentiating y_p(x) twice, we find:

y_p''(x) = (u''(x) - 4u(x)) * cos(2x) + (v''(x) - 4v(x)) * sin(2x) + 4(u(x) * sin(2x) - v(x) * cos(2x)).

Plugging y_p(x) and its derivatives into the differential equation, we get:

(u''(x) - 4u(x)) * cos(2x) + (v''(x) - 4v(x)) * sin(2x) + 4(u(x) * sin(2x) - v(x) * cos(2x)) + 4(u(x) * cos(2x) + v(x) * sin(2x)) = sec(2x).

To solve for u''(x) and v''(x), we equate the coefficients of the terms with cos(2x) and sin(2x) separately:

For the term with cos(2x): u''(x) - 4u(x) + 4v(x) = 0,

For the term with sin(2x): v''(x) - 4v(x) - 4u(x) = sec(2x).

Solving these equations, we find u(x) = -1/4 * sec(2x) * sin(2x) - 1/2 * cos(2x) and v(x) = 1/4 * sec(2x) * cos(2x) - 1/2 * sin(2x).

Substituting u(x) and v(x) back into the particular solution form, we obtain:

y_p(x) = -1/4 * [sec(2x) * sin(2x) + 2cos(2x)].

Finally, the general solution to the differential equation is given by the sum of the complementary function and the particular integral:

y(x) = y_c(x) + y_p(x) = -1/4 * [sec(2x) * sin(2x) + 2cos(2x)] + C1 * cos(2x) + C2 * sin(2x).

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The trigonometric expression sin θ cot θ can be simplified to csc θ.

To simplify the expression sin θ cot θ, we can rewrite cot θ as 1/tan θ. Therefore, the expression becomes sin θ (1/tan θ).

Using the reciprocal identities, we know that csc θ is equal to 1/sin θ, and tan θ is equal to sin θ/cos θ. Therefore, we can rewrite the expression as sin θ (1/(sin θ/cos θ)).

Simplifying further, we can multiply sin θ by the reciprocal of (sin θ/cos θ), which is cos θ/sin θ. This simplifies the expression to (sin θ × cos θ)/(sin θ).

Finally, we can cancel out the sin θ terms, leaving us with just cos θ. Therefore, sin θ cot θ simplifies to csc θ.

In conclusion, the simplified form of the trigonometric expression sin θ cot θ is csc θ.

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The loan amount for this extension is approximately $32,631. The correct option is (A) $32,631.

To find the loan amount for the extension Liam built onto his home, we can use the loan formula:

Loan formula:

PV = PMT * [{1 - (1 / (1 + r)^n)} / r]

Where,

PV = Present value (Loan amount)

PMT = Monthly payment

r = rate per month

n = total number of months

PMT = $750

r = 4.9% per annum / 12 months = 0.407% per month

n = 48 months

Putting the given values in the loan formula, we get:

PV = $750 * [{1 - (1 / (1 + 0.00407)^48)} / 0.00407]

PV ≈ $32,631 (rounded off to the nearest dollar)

Therefore, This extension's loan amount is roughly $32,631. The correct answer is option (A) $32,631.

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The trend in a time series refers to the long-term movement or direction of the data. It represents the underlying pattern or growth rate over an extended period. For example, if we analyze the sales data of a company over several years, we might observe a steady increase in sales, indicating a positive trend. On the other hand, if the data shows a decline over time, it indicates a negative trend.

Seasonality in a time series refers to the repetitive pattern or fluctuations that occur within a fixed time period, typically a year. These patterns are usually influenced by natural or calendar factors such as weather, holidays, or cultural events. For instance, if we analyze the monthly ice cream sales data, we might observe higher sales during the summer months and lower sales during the winter months due to the seasonal demand for ice cream.

Cyclical patterns in a time series represent the fluctuations that occur over a medium-term period, typically spanning several years. These patterns are often related to economic or business cycles. For example, the housing market may experience periods of expansion and contraction due to factors such as interest rates, employment rates, or consumer confidence. These cyclical fluctuations can have an impact on various industries, including real estate and construction.

It's important to note that the distinction between seasonal and cyclical patterns can sometimes be blurred, as both involve repeated patterns. However, the key difference lies in the duration of the pattern. Seasonal patterns occur within a fixed time period, while cyclical patterns occur over a medium-term period.

In summary, the trend represents the long-term movement or direction of the data, while seasonality and cyclical patterns refer to shorter-term repetitive fluctuations. Understanding these components is essential for analyzing and forecasting time series data.

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The new ratio of the siblings' share of sweets is 19:28:25. Thus, option A is correct..

Initially, the siblings shared the 42 chocolate sweets according to the ratio 3:6:5.

To find the total number of parts in the ratio, we add the individual ratios: 3 + 6 + 5 = 14 parts.

To determine the share of each sibling, we divide the total number of sweets (42) into 14 parts:

Trust's share = (3/14) * 42 = 9 sweets

Hardlife's share = (6/14) * 42 = 18 sweets

Innocent's share = (5/14) * 42 = 15 sweets

Now, their father buys an additional 30 chocolate sweets and gives 10 to each sibling. This means that each sibling's share increases by 10.

Trust's new share = 9 + 10 = 19 sweets

Hardlife's new share = 18 + 10 = 28 sweets

Innocent's new share = 15 + 10 = 25 sweets

The new ratio of the siblings' share of sweets is 19:28:25.

However, none of the given answer options match this ratio. Please double-check the provided answer choices or the given information to ensure accuracy.

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Step-by-step explanation:

Amy’s field is bounded by a 1.8 km stretch of river to the west and a 1200 m section of road to the east.

The northern boundary is 2300m long. To the south, the field has a 1.1km wall and 0.7km hedge.

Amy is going to put a fence around this field. How long will the fence need to be?

a)7.1 km

b)13.4 km

c)38.6 km

d)Not enough information.

correct answer is d 38.6

To find the maximum likelihood estimate (MLE) for the parameters μ and λ of the inverse Gaussian distribution in R, you can use the optimization functions available in the stats4 package.

Here are the steps to solve this in RStudio:

Install and load the stats4 package:

install.packages("stats4")

library(stats4)

Define the log-likelihood function for the inverse Gaussian distribution:

log_likelihood <- function(parameters, x) {

 mu <- parameters[1]

 lambda <- parameters[2]

 n <- length(x)  

 sum_term <- sum((x - mu)^2 / (mu^2 * x) - log(2 * pi * x * lambda) - (x - mu)^2 / (2 * mu^2 * lambda^2))

   return(-n * log(lambda) - n * mu / lambda + sum_term)

}

Generate a random sample or use the observed data:

x <- c(x1, x2, ..., xn)  # Replace with the observed data

Define the negative log-likelihood function for optimization:

negative_log_likelihood <- function(parameters) {

 return(-log_likelihood(parameters, x))

Use the mle function to find the MLE:

start_values <- c(1, 1)  # Provide initial values for the parameters

result <- mle(negative_log_likelihood, start = start_values)

mle_estimate <- coef(result)

The MLE for μ is given by mle_estimate[1] and the MLE for λ is given by mle_estimate[2].

Note: Make sure to replace x1, x2, ..., xn with the actual observed data values and provide appropriate initial values for the parameters in start_values.

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Option (B) --------->  m<EFN  =   80 degrees

Step-by-step explanation:

m<EFG = m<EFN + m<NFG

m<EFG  = 153 degrees

m<NFG =  73 degrees

153 = m<EFN + 73

m<EFN  =  153 - 73

             =   80 degrees

Therefore, we have found that the required angle m<EFN is:

m<EFN  =  80 degrees

I hope this helps you!

Answer:

A straight line.

Step-by-step explanation:

[tex]3y = -2x + 12[/tex] on a coordinate plane is a line having slope [tex]\frac{-2}{3}[/tex] and y-intercept  [tex](0,4)[/tex] .

Firstly we try to find the slope-intercept form: [tex]y = mx+c[/tex]

m = slope

c = y-intercept

We have,   [tex]3y = -2x + 12[/tex]

=> [tex]y = \frac{-2x+12}{3}[/tex]

=> [tex]y = \frac{-2}{3} x +\frac{12}{3}[/tex]

=> [tex]y = \frac{-2}{3} x +4[/tex]

Hence, by the slope-intercept form, we have

m = slope = [tex]\frac{-2}{3}[/tex]

c = y-intercept = [tex]4[/tex]

Now we pick two points to define a line: say [tex]x = 0[/tex] and [tex]x=3[/tex]

When  [tex]x = 0[/tex] we have [tex]y=4[/tex]

When  [tex]x = 3[/tex] we have [tex]y=2[/tex]

Hence,  [tex]3y = -2x + 12[/tex] on a coordinate plane is a line having slope [tex]\frac{-2}{3}[/tex] and y-intercept  [tex](0,4)[/tex] .

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Answer:

P(rolling a 3) = 1/6

The 1 goes in the green box.

The rate of interest on the loan is 29.17%.

To calculate the rate of interest, we can use the formula for simple interest:

Simple Interest = Principal x Rate x Time

In this case, the principal is $4,800, the simple interest collected is $5,600, and the time is 4 years. Plugging these values into the formula, we can solve for the rate:

$5,600 = $4,800 x Rate x 4

To find the rate, we isolate it by dividing both sides of the equation by ($4,800 x 4):

Rate = $5,600 / ($4,800 x 4)

Rate = $5,600 / $19,200

Rate ≈ 0.2917

Converting this decimal to a percentage, we get approximately 29.17%.

Therefore, the rate of interest on the loan is approximately 29.17%.

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For any complex number a + bi, the product of the number and its complex conjugate, (a + bi)(a - bi), yields a real number [tex]a^2 + b^2[/tex].

Let's consider a complex number in the form a + bi, where a and b are real numbers and i represents the imaginary unit. The complex conjugate of a + bi is a - bi, obtained by changing the sign of the imaginary part.

To show that the product of a complex number and its complex conjugate is a real number, we can multiply the two expressions:

(a + bi)(a - bi)

Using the distributive property, we expand the expression:

(a + bi)(a - bi) = a(a) + a(-bi) + (bi)(a) + (bi)(-bi)

Simplifying further, we have:

[tex]a(a) + a(-bi) + (bi)(a) + (bi)(-bi) = a^2 - abi + abi - b^2(i^2)[/tex]

Since [tex]i^2[/tex] is defined as -1, we can simplify it to:

[tex]a^2 - abi + abi - b^2(-1) = a^2 + b^2[/tex]

As we can see, the imaginary terms cancel out (-abi + abi = 0), and we are left with the sum of the squares of the real and imaginary parts, a^2 + b^2.

This final result, [tex]a^2 + b^2[/tex], is a real number since it does not contain any imaginary terms. Therefore, the product of a complex number and its complex conjugate is always a real number.

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The product of any complex number a + bi and its complex conjugate a-bi is a real number represented by a² + b².

Consider a complex number expressed as a + bi, where 'a' and 'b' represent real numbers and 'i' is the imaginary unit.

The complex conjugate of a + bi can be represented as a - bi.

By calculating the product of the complex number and its conjugate, (a + bi)(a - bi), we can simplify the expression to a² + b², where a² and b² are both real numbers.

This resulting expression, a² + b², consists only of real numbers and does not involve the imaginary unit 'i'.

Consequently, the product of any complex number, a + bi, and its complex conjugate, a - bi, yields a real number equivalent to a² + b².

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The given function is y = 3cos(-θ/3). The period of the given function is 6π, its range is [-3,3] and the amplitude of 3.

The period of a cosine function is determined by the coefficient of θ. In this case, the coefficient is -1/3. The period, denoted as T, can be found by taking the absolute value of the coefficient and calculating the reciprocal: T = |2π/(-1/3)| = 6π. Therefore, the period of the function is 6π.

The range of a cosine function is the set of all possible y-values it can take. Since the coefficient of the cosine function is 3, the amplitude of the function is |3| = 3. The range of the function y = 3cos(-θ/3) is [-3, 3], meaning the function's values will oscillate between -3 and 3.

- The period of a cosine function is the length of one complete cycle or oscillation. In this case, the function has a period of 6π, indicating that it will complete one full oscillation over an interval of 6π units.

- The range of the function y = 3cos(-θ/3) is [-3, 3] because the amplitude is 3. The amplitude determines the vertical stretch or compression of the function. It represents the maximum displacement from the average value, which in this case is 0. Therefore, the graph of the function will oscillate between -3 and 3 on the y-axis.

In summary, the given function y = 3cos(-θ/3) has a period of 6π, a range of [-3, 3], and an amplitude of 3.

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Answer:

(-3,0),(-2,1),(-1,0),(0,-3),(-5,-8)

Step-by-step explanation:

you may first send the diagram

Answer:

74.088 mm^3

Step-by-step explanation:

V = l * w * h

V = 4.2 * 4.2 * 4.2

V = 74.088 mm^3