How many times larger is (1.088 x 10^1) than (8 x 10^-1)

HELP

Answer:

  (23/3)π ≈ 24.09 in

Step-by-step explanation:

You want the perimeter of the figure bounded by two arcs, one that is a semicircle of radius 3 in, the other being an arc of 210° of radius 4 in.

The length of an arc is given by the formula ...

  s = rθ . . . . . where r is the radius and θ is the central angle in radians

The central angle of a semicircle is 180°, or π radians.

The central angle of an arc of 210° is 210°, or (210/180)π = 7π/6 radians.

The perimeter of the figure is the sum of the two arc lengths that make it up:

  (4 in)(7π/6) +(3 in)(π) = 23π/3 in ≈ 24.09 in

The perimeter of the figure is about 24.09 inches.

__

Additional comment

Arcs with those dimensions do not meet at their ends. The larger arc would need to have a measure of about 262.8° to meet the ends of a 6" semicircle.

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To prove the statement "for every integer n such that 0 ≤ n < 3, (n+1)2 > n3" by exhaustion, we can simply check all values of n between 0 and 2 inclusive.

For n = 0, we have (0+1)2 = 1 > 0 = 03, which is true.

For n = 1, we have (1+1)2 = 4 > 1 = 13, which is also true.

For n = 2, we have (2+1)2 = 9 > 8 = 23, which is once again true.

Since the inequality holds for all values of n between 0 and 2 inclusive, we can conclude that the statement is true for all integers n such that 0 ≤ n < 3.

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In a right triangle with acute angles of 45°, the two legs are congruent. Let's denote the length of both legs as x.

Given that the length of leg PR is 2√6, we can set up the equation:

x = 2√6

To find the value of x, we square both sides of the equation:

x^2 = (2√6)^2

x^2 = 4 * 6

x^2 = 24

Taking the square root of both sides, we get:

x = √24

x = 2√6

So, the length of both legs PQ and QR is 2√6.

Therefore, the length of side QR is 2√6, and the length of side PQ is also 2√6.

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The forecast for month 11 using simple exponential smoothing with α=.40 is 94.

To compute the forecast for month 11 using the exponentially smoothed forecast with α=.40, we need a time series dataset that includes the values of the variable we want to forecast for the past months. Exponential smoothing is a widely used time series forecasting method that works by giving more weight to recent observations while decreasing the weight of older observations in a weighted average.

In simple exponential smoothing, the forecast for the next period is computed as a weighted average of the actual value for the current period and the forecast for the previous period .

The weights decrease exponentially as we move back in time.

The smoothing parameter α controls the rate at which the weights decrease and the level of smoothing applied to the data.

A higher value of α puts more weight on recent observations and results in a more responsive forecast.

Assuming we have a time series dataset with values for months 1 through 10, we can use the following formula to compute the forecast for month 11 using simple exponential smoothing with α=.40:

F(t+1) = α×Y(t) + (1 - α) × F(t)

F(t+1) is the forecast for the next period (month 11), Y(t) is the actual value for the current period (month 10), and F(t) is the forecast for the current period (month 10).

Assuming the actual value for month 10 is 100 and the forecast for month 10 using the same method was 90, we can calculate the forecast for month 11 as:

F(11) = 0.4 × 100 + 0.6 × 90 = 94

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Without information about the standard deviation or the sample standard deviation, it is not possible to determine the greatest amount by which the estimated mean time could differ from the true mean with a probability of 0.95.

To determine the greatest amount by which the estimated mean time could differ from the true mean with a probability of 0.95, we can use the concept of the margin of error in confidence intervals.

The margin of error is a measure of the uncertainty associated with an estimated parameter, such as the mean, based on a sample. It represents the maximum amount by which the estimate could differ from the true population parameter.

In this case, we can use the standard formula for the margin of error for estimating the population mean:

Margin of Error = Z * (Standard Deviation / √(Sample Size))

The Z value corresponds to the desired level of confidence. For a 95% confidence level, Z is approximately 1.96.

However, to calculate the margin of error, we need to know the standard deviation of the population or an estimate of it. If the standard deviation is not known, we can use the sample standard deviation as an estimate, assuming that the sample is representative of the population.

Once we have the sample standard deviation, we can substitute the values into the formula to calculate the margin of error.

It's important to note that the margin of error gives a range within which we can be confident that the true population mean lies. It does not provide a specific point estimate of the difference between the estimated mean and the true mean.

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A function is a mathematical rule that relates an input (x) to an output (f(x)).

In this case, the function f(x) is given by the formula

f(x) = 2x³− 21x²− 48x + 11. The function is defined for all values of x between -4 and 17. This means that if you plug any number between -4 and 17 into the formula, you will get a corresponding output value.

However, in general, functions can represent all sorts of real-world phenomena, such as distance traveled over time, the amount of money in a bank account over time, or the temperature of a room over time. In the case of this particular function, it may be useful in modeling some phenomenon, but without more information, it's impossible to say what that phenomenon might be.

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The required answer is the filled volume for "Guzzle" bottles is between 0.0054oz and 0.0197oz.

Based on the given information, the bottlers of "Guzzle" are experiencing issues with the filling mechanism for their 16oz bottles. To estimate the population standard deviation of the volume, the filled volume for 20 bottles was measured, yielding a sample standard deviation of 0.1oz.
To compute a 95% confidence interval for the standard deviation, we can use the formula:

CI = ( (n-1) * s^2 / X^2_α/2, (n-1) * s^2 / X^2_1-α/2 )

Where CI is the confidence interval, n is the sample size (in this case, 20), s is the sample standard deviation (0.1oz), X^2_α/2 is the chi-squared value for the upper tail of the distribution with α/2 degrees of freedom (where α = 0.05 for a 95% confidence interval), and X^2_1-α/2 is the chi-squared value for the lower tail of the distribution with 1-α/2 degrees of freedom.
Using a chi-squared table or calculator, we can find that X^2_α/2 = 31.410 and X^2_1-α/2 = 10.117.
Plugging in the values, we get:
CI = ( (20-1) * 0.1^2 / 31.410, (20-1) * 0.1^2 / 10.117 )
Simplifying, we get:
CI = (0.0054, 0.0197)
Therefore, we can say with 95% confidence that the population standard deviation of the filled volume for "Guzzle" bottles is between 0.0054oz and 0.0197oz.

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The value of the integral

∫ d t ( 1 − 3 t ) 5 = (-1/243)(1-3t)⁶/6 + (5/81)(1-3t)⁵/15 - (10/36)(1-3t)⁴/36 + (10/81)(1-3t)³/81 - (5/324)(1-3t)²/243 + c

To evaluate this integral using the given substitution, we need to first find an expression for dt in terms of du. To do this, we can differentiate the substitution equation u = 1 - 3t with respect to t, giving:

du/dt = -3

Solving for dt, we get:

dt = -du/3

Now we can substitute for dt and for 1-3t in the integral, giving:

∫ d t ( 1 − 3 t ) 5 = ∫ (1-u/3)⁵ (-du/3)

Expanding the binomial and factoring out the constant -1/243, we get:

∫ (u⁵ - 5u⁴/3 + 10u³/9 - 10u²/27 + 5u/81 - 1/243) du

Integrating each term separately, we get:

(u⁶/6 - 5u⁵/15 + 10u⁴/36 - 10u³/81 + 5u²/324 - u/243) + c

Substituting back for u, we get the final answer:

∫ d t ( 1 − 3 t ) 5 = (-1/243)(1-3t)⁶/6 + (5/81)(1-3t)⁵/15 - (10/36)(1-3t)⁴/36 + (10/81)(1-3t)³/81 - (5/324)(1-3t)²/243 + c

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To compute the first-order partial derivatives of the function z = tan(7uv^6) with respect to u and v, we can apply the chain rule.

Answer : მz/მu = sec^2(7uv^6) * 7v^6,მz/მv = sec^2(7uv^6) * 42uv^5

The chain rule states that if z = f(g(u, v)), then the partial derivative of z with respect to u is given by მz/მu = (მf/მg) * (მg/მu).

Let's calculate the first-order partial derivatives:

1. Partial derivative of z with respect to u (მz/მu):

Using the chain rule, we have:

მz/მu = (მtan(7uv^6)/მ(7uv^6)) * (მ(7uv^6)/მu)

The derivative of tan(x) with respect to x is sec^2(x), so:

მtan(7uv^6)/მ(7uv^6) = sec^2(7uv^6)

The derivative of 7uv^6 with respect to u is 7v^6, so:

მ(7uv^6)/მu = 7v^6

Putting it all together:

მz/მu = sec^2(7uv^6) * 7v^6

2. Partial derivative of z with respect to v (მz/მv):

Using the chain rule again:

მz/მv = (მtan(7uv^6)/მ(7uv^6)) * (მ(7uv^6)/მv)

The derivative of tan(x) with respect to x is sec^2(x), so:

მtan(7uv^6)/მ(7uv^6) = sec^2(7uv^6)

The derivative of 7uv^6 with respect to v is 42uv^5, so:

მ(7uv^6)/მv = 42uv^5

Putting it all together:

მz/მv = sec^2(7uv^6) * 42uv^5

Therefore, the first-order partial derivatives of the function z = tan(7uv^6) are:

მz/მu = sec^2(7uv^6) * 7v^6

მz/მv = sec^2(7uv^6) * 42uv^5

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The expression equivalent to 7(x * 4) is 28x.

To simplify the expression 7(x * 4), we can first evaluate the product inside the parentheses, which is x * 4. Multiplying x by 4 gives us 4x.

Now, we can substitute this value back into the expression, resulting in 7(4x). The distributive property allows us to multiply the coefficient 7 by both terms inside the parentheses, yielding 28x.

Therefore, the expression 7(x * 4) simplifies to 28x. This means that if we substitute any value for x, the result will be the same as evaluating the expression 7(x * 4). For example, if we let x = 2, then 7(2 * 4) is equal to 7(8), which simplifies to 56. Similarly, if we substitute x = 3, we get 7(3 * 4) = 7(12) = 84. In both cases, evaluating 28x with the given values also gives us 56 and 84, respectively

In conclusion, the expression equivalent to 7(x * 4) is 28x.

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The area of the rectangular piece of metal having a length of 10 inches and a width of 14 inches is 140 square inches. So the area of a rectangular piece of metal = 140 square inches.

To determine the area of a rectangular piece of metal, you need to multiply the length by the width.

Given,

Width of the rectangular piece of metal = 10 inches

Length of the rectangular piece of metal = 14 inches

We can use the formula for finding the area of a rectangle,

A = l x w (where A is the area of the rectangle, l is the length of the rectangle, and w is the width of the rectangle) to solve the given problem.

Area = length × width

= 14 × 10

= 140 square inches.

Since we are multiplying two lengths, the answer has square units. Therefore, the area is given in square inches. Thus, we can conclude that the area of the rectangular piece of metal is 140 square inches. This means the metal piece has a surface area of 140 square inches.

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Answer: the baker's profit when he sells 33 cakes and 42 pies is $150.65.

Step-by-step explanation: Profit = 5.75 + 3.45p

Profit = 5.75 + 3.45(42) (substitute c = 33 and p = 42)

Profit = 5.75 + 144.9

Profit = 150.65

The possibility are 1,716 possible ways to cast the roles of Larry, Curly, and Moe from a group of 13 actors.

There are 13 actors auditioning for the roles of Larry, Curly, and Moe, there are 13 choices for who can be cast in the first role, 12 choices left for who can be cast in the second role, and 11 choices left for who can be cast in the third role (assuming that no actor can play more than one role).

To determine the number of ways the roles of Larry, Curly, and Moe could be cast with 13 different actors auditioning, we can use the concept of permutations.

In this case, we have 13 actors and 3 roles to fill, so we calculate it as follows:

Permutations = 13 * 12 * 11 Permutations

= 1,716

So, there are 1,716 different ways the roles of Larry, Curly, and Moe could be cast from the 13 actors auditioning.

Therefore, the number of ways the roles can be cast is:

13 x 12 x 11 = 1,716

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In this question, it is given that Michael has a credit card with an APR of 15.33%. It computes finance charges using the daily balance method and a 30-day billing cycle.

On April 1st, Michael had a balance of $822.5. Sometime in April, he made a purchase of $77.19.

This was the only purchase he made on this card in April, and he made no payments. If Michael’s finance charge for April was $10.71, on which day did he make the purchase?

We have to find on which day did he make the purchase.Since Michael made only one purchase, the entire balance is attributed to that purchase.

This means that the balance was $822.50 until the purchase was made and then increased by $77.19 to $899.69. 

Therefore, the average balance would be equal to the sum of the beginning and ending balances divided by 2.Using the daily balance method:Average balance * Daily rate * Number of days in billing cycle.[tex](0.1533/365)*30 days=0.012684[/tex]There is no reason to perform any further calculations, since the answer is in days, not dollars.

This means that, if Michael had made his purchase on April 10th, there would have been exactly 21 days of accumulated interest, resulting in a finance charge of $10.71.

Therefore, the purchase was made on April 10th and the answer is option B. April 10th.

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(a) The true difference between the probabilities that the radar systems successfully detect dropped packages lies between −0.112 and 0.318, with 99% two-sided confidence interval.

(b) The p-value for the two-sided test is:

    p-value = 2 * 0.021 = 0.042

(a) To construct a 99% two-sided confidence interval for the difference between the probabilities that the radar systems successfully detect dropped packages, we can use the formula:

CI = (p1 - p2) ± zα/2 * sqrt(p1(1-p1)/n1 + p2(1-p2)/n2)

where p1 and p2 are the sample proportions of successful detections for radar systems A and B, n1 and n2 are the sample sizes, and zα/2 is the critical value from the standard normal distribution corresponding to a 99% confidence level, which is 2.576.

Plugging in the values, we get:

p1 = 35/44 = 0.795

p2 = 36/52 = 0.692

n1 = 44

n2 = 52

zα/2 = 2.576

CI = (0.795 - 0.692) ± 2.576 * sqrt(0.795(1-0.795)/44 + 0.692(1-0.692)/52)

= 0.103 ± 0.215

= (−0.112, 0.318)

Therefore, we can say with 99% confidence that the true difference between the probabilities that the radar systems successfully detect dropped packages lies between −0.112 and 0.318.

(b) To calculate the p-value for the test of the two-sided null hypothesis that the two radar systems are equally effective, we can use the formula:

p-value = 2 * P(Z > |t|)

where Z is a standard normal random variable, and t is the test statistic given by:

t = (p1 - p2) / sqrt(p(1-p) * (1/n1 + 1/n2))

where p is the pooled sample proportion given by:

p = (x1 + x2) / (n1 + n2)

and x1 and x2 are the total number of successful detections for radar systems A and B, respectively.

Plugging in the values, we get:

x1 = 35

x2 = 36

n1 = 44

n2 = 52

p = (35 + 36) / (44 + 52) = 0.749

t = (0.795 - 0.692) / sqrt(0.749 * (1-0.749) * (1/44 + 1/52)) = 2.030

Using a standard normal table or calculator, we can find that P(Z > 2.030) = 0.021, so the p-value for the two-sided test is:

p-value = 2 * 0.021 = 0.042

Therefore, at the 5% significance level, we can reject the null hypothesis that the two radar systems are equally effective, since the p-value is less than 0.05.

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In triangle ABC, we know that angle A is 37.4 degrees, side a is 3.1 units long, and side c is 18.4 units long. To find the remaining angles B and C, we can use the law of cosines, which states that c^2 = a^2 + b^2 - 2ab*cos(C), where b is the length of side b and C is the angle opposite to side c. Rearranging this equation, we get cos(C) = (a^2 + b^2 - c^2) / 2ab. Using the given values, we can plug them into this equation and solve for cos(C). Then we can use the inverse cosine function to find angle C. Similarly, we can use the law of sines to find angle B.

Given that angle A is 37.4 degrees, side a is 3.1 units long, and side c is 18.4 units long, we need to find the remaining angles B and C in triangle ABC. We can use the law of cosines to solve for cos(C) first.

c^2 = a^2 + b^2 - 2ab*cos(C)

(18.4)^2 = (3.1)^2 + b^2 - 2(3.1)(b)*cos(C)

Simplifying and rearranging, we get:

cos(C) = (b^2 + (3.1)^2 - (18.4)^2) / (2*3.1*b)

cos(C) = (b^2 - 343.99) / (6.2b)

Now we can use the inverse cosine function to solve for angle C:

C = cos^(-1)((b^2 - 343.99) / (6.2b))

Next, we can use the law of sines to solve for angle B:

sin(B) / 3.1 = sin(C) / 18.4

sin(B) = (3.1 * sin(C)) / 18.4

B = sin^(-1)((3.1 * sin(C)) / 18.4)

We can now substitute the value we found for cos(C) into these equations to get the values of angles B and C.
Using the given values of angle A, side a, and side c, we can use the law of cosines and the law of sines to solve for the remaining angles B and C in triangle ABC. The final answer depends on the value of side b, which we did not have. Therefore, choice B is the correct answer, which states that there are two possible sets of remaining angles, depending on the length of side b.

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The number of moths in the collection is given as follows:E) 84.

The number of moths in the collection is obtained by applying the proportions in the context of the problem.

The total number of insects in the collection is given as follows:112 insects.

The fraction relative to moths in the collection is given as follows:3/4.

Hence the number of moths in the collection is given as follows:3/4 x 112 = 84.

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The question in English :

Luis's insect collection is

composed of 112 insects, and 3/4 of them

they are butterflies. How many butterflies are in the

collection?

(A) 28

(B) 37

(C) 64

(D) 75

(E) 84

There are two possible values of λ that make the vectors A and B parallel: λ = 2 and λ = -2.

To find the value(s) of λ that make vectors A = 2u - 3v parallel to B = λ²u + 6v, we must first understand that two vectors are parallel if one is a scalar multiple of the other. In other words, A = k * B, where k is a constant scalar.

Using the given expressions for A and B, we have:

2u - 3v = k(λ²u + 6v)

Now, we can equate the coefficients of the vectors u and v separately:

For u: 2 = kλ²
For v: -3 = 6k

Let's solve for k in the second equation:

k = -3 / 6 = -1/2

Now, substitute k in the first equation:

2 = (-1/2) * λ²

Multiply both sides by 2:

4 = λ²

Now, find the value(s) for λ:

λ = ±√4 = ±2

Thus, there are two possible values of λ that make the vectors A and B parallel: λ = 2 and λ = -2.

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The covariance between the sum (X+Y) and the difference (X-Y) of two identically distributed random variables X and Y is zero.

Let's calculate the covariance using the definition: Cov(X+Y, X-Y) = E[(X+Y)(X-Y)] - E[X+Y]E[X-Y]. Expanding the expression, we have Cov(X+Y, X-Y) = E[X² - XY + XY - Y²] - E[X]E[X] + E[X]E[Y] - E[Y]E[X] - E[Y]E[X] + E[Y²]. Simplifying further, we get Cov(X+Y, X-Y) = E[X²] - E[X²] + E[Y²] - E[Y²] - E[X]E[X] - E[Y]E[X] + E[X]E[Y] + E[Y]E[X] = 0. Here, we use the fact that X and Y are identically distributed, so their means and variances are equal (E[X] = E[Y] and Var[X] = Var[Y]). Thus, E[X]E[X] - E[Y]E[X] + E[X]E[Y] + E[Y]E[X] can be simplified to 2E[X]E[Y] - 2E[X]E[Y], which equals zero. Therefore, Cov(X+Y, X-Y) = 0, indicating that the sum and difference of identically distributed random variables X and Y are uncorrelated.

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The approximate value of the area enclosed by the curves y = −x⁴/4 + x²/2 + 2 and y = x − 1, for -1.7 ≤ x ≤ 1.7, is 7.12 square units.

First, we need to find the points of intersection between the curves:

y = -x⁴/4 + x²/2 - 2 and y = x - 1

Setting them equal, we get:

Multiplying by -4 to simplify the equation:

x⁴ - 2x² + 4x - 4 = 0

Using a numerical method such as Newton's method, we can find that one of the roots is approximately x = 1.33. The other three roots are complex.

Now, we can set up the integral to find the area between the curves:

A = ∫[tex](-1.7)^{1.33}[/tex] [-x⁴/4 + x²/2 - 2 - (x - 1)] dx + ∫[tex](-1.7)^{1.33}[/tex] [(x - 1) - (-x⁴/4 + x²/2 - 2)] dx

Simplifying the integrals:

A = ∫[tex](-1.7)^{1.33}[/tex] [-x⁴/4 + x²/2 - x - 1] dx + ∫[tex]1.33^{1.7}[/tex] [x⁴/4 - x²/2 + x - 1] dx

Evaluating the integrals:

Therefore, the area between the curves is approximately 7.12 square units.

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There are 3 internal nodes with degree 4 and 10 internal nodes with degree 3 in the tree t.

Let x be the number of internal nodes with degree 4, and y be the number of internal nodes with degree 3.

1. x + y = 13 (total internal nodes)
2. 4x + 3y = t - 1 (sum of degrees of internal nodes)

Since t has 24 leaves and 13 internal nodes, there are 24 + 13 = 37 nodes in total. So, t = 37 and we have:

4x + 3y = 36 (using t - 1 = 36)

Now, we can solve the two equations:

x + y = 13
4x + 3y = 36

First, multiply the first equation by 3 to make the coefficients of y equal:

3x + 3y = 39

Now, subtract the second equation from the modified first equation:

(3x + 3y) - (4x + 3y) = 39 - 36
-1x = 3

Divide by -1:

x = -3/-1
x = 3

Now that we have the value of x, we can find the value of y:

x + y = 13
3 + y = 13

Subtract 3 from both sides:

y = 13 - 3
y = 10

So, there are 3 internal nodes with degree 4 and 10 internal nodes with degree 3 in the tree t.

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The system of equations that can be used to determine the number of nickels, n, and the number of dimes, d, in Fernando's pocket are: n + d = 22 0.05n + 0.10d = 1.70

The first equation represents the total number of coins, which is 22.

The second equation represents the total value of the coins, which is $1.70.

To solve for the number of nickels and dimes, you can use substitution or elimination methods.

Substitution method: Solve one equation for one variable, and substitute that expression into the other equation. For example, solve the first equation for n, such that n = 22 - d. Substitute this expression for n in the second equation, and solve for d. Once you have d, you can find n by substituting that value into either equation.

Elimination method: Multiply one or both equations by constants to make the coefficients of one variable equal and opposite. For example, multiply the first equation by -0.05 and the second equation by 1. Then add the two equations to eliminate the n variable and solve for d. Once you have d, you can find n by substituting that value into either equation.

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You are correct. Events A and B are not mutually exclusive. It is possible for Stacey to pursue a major in biochemistry and a minor in animal sciences at the same time. In fact, it is quite common for students to pursue multiple majors and/or minors during their college career. Therefore, these events can occur together, which means they are not mutually exclusive.

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The given trigonometric expressions.

1. sin120 = √3/2

2. sin94 = (√6 - √2)/4

3. cos(-225) = cos(135) = -√2/2

4. tan(pi/4) = 1

5. cos56 = (1/2)(√2 + √10)

6. tan56 = (√10 - √2)/(2√3)

7. sin(-43) = -sin(43) = -((√6 - √2)/4)

8. cos2 = cos(2 radians) = cos(114.59 degrees) = -0.416

To evaluate sin120, we can use the fact that sin(120) = sin(180 - 60) = sin(60), which is equal to √3/2.

To evaluate sin94, we can use the fact that sin(94) = sin(180 - 86) = sin(86).

Unfortunately, we cannot find the exact value of sin(86) using basic trigonometry functions.

However, we can use the sum-to-product formula to express sin(86) as sin(45+41), which is equal to (1/√2)(sin41 + cos41).

We can further simplify this to (√2/4)(√2sin41 + 1), which can be simplified to (√2/4)(√2sin41 + 1) = (√6 - √2)/4.

To evaluate cos(-225), we can use the fact that cos(-225) = cos(225), which is equal to -cos(45) = -√2/2.

To evaluate tan(pi/4), we can use the fact that tan(pi/4) = sin(pi/4)/cos(pi/4) = 1/1 = 1.

To evaluate cos56, we can use the fact that cos(56) cannot be simplified further using basic trigonometry functions.

However, we can express it as (1/2)(cos(16) + cos(74)) using the sum-to-product formula.

We cannot evaluate cos(16) or cos(74) exactly, but we can use a calculator to get an approximate value of 0.96 for cos(16) and 0.27 for cos(74).

Therefore, cos56 is approximately (1/2)(0.96 + 0.27) = 0.615.

To evaluate tan56, we can again use the sum-to-product formula to express tan56 as (tan(45+11))/(1-tan(45)tan(11)).

Simplifying this expression, we get ((√2+tan11)/(1-√2tan11)).

We cannot evaluate tan(11) exactly, but we can use a calculator to get an approximate value of 0.21.

Therefore, tan56 is approximately ((√10-√2)/(2√3)).

To evaluate sin(-43), we can use the fact that sin(-43) = -sin(43).

Using the same approach as in question 2, we can express sin(43) as (1/2)(cos(47)-cos(5)), which simplifies to (√6 - √2)/4.

Therefore, sin(-43) is approximately -((√6 - √2)/4).

To evaluate cos2, we can simply use a calculator to get an approximate value of -0.416.

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1. sin(120) = √3/2 2. sin(94) = sin(90 + 4) = cos(4) 3. cos(-225) = cos(225) = -√2/2 4. tan: Value not provided. 5. cos(56) = cos(90 - 34) = sin(34) 6. tan(56) = tan(90 - 34) = cot(34) 7. sin(-43) = -sin(43) 8. cos(2)

1. sin120 = √3/2 (sin120 is in the second quadrant where sin is positive and cos is negative, so we use the Pythagorean identity sin²x + cos²x = 1 and solve for sin120)
2. sin94 = (1/2)(√(3+2√2)) (sin94 is in the first quadrant where sin is positive, but we cannot use the Pythagorean identity to simplify further)
3. cos-225 = -√2/2 (cos-225 is in the third quadrant where cos is negative and sin is negative, so we use the Pythagorean identity cos²x + sin²x = 1 and solve for cos-225)
4. tan = sin/cos (We need to know which angle we are taking the tangent of in order to simplify further)
5. cos56 = (1/2)(√(2+√3)) (cos56 is in the fourth quadrant where cos is positive, but we cannot use the Pythagorean identity to simplify further)
6. tan56 = (√(3+2√2))/(√(3-2√2)) (We use the tangent addition formula to simplify tan56: tan(45+11) = (tan45 + tan11)/(1-tan45*tan11))
7. sin-43 = -sin43 (sine is an odd function, which means sin(-x) = -sin(x))
8. cos2 = cos²1 - sin²1 = 1/2 (cos2 is in the first quadrant where both cos and sin are positive, so we can use the Pythagorean identity to simplify further)

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the function f(x) is differentiable everywhere when a = -3 and b = 16, and is given by:

f(x) = { x^2 - 2x + 2 if x <= -2

{ -3x + 16     if x > -2

For the function f(x) to be differentiable everywhere, we need the two pieces of the function to "match up" at x = -2, i.e., they should have the same value and derivative at x = -2.

First, we evaluate the value of f(x) at x = -2 using the second piece of the function:

f(-2) = a(-2) + b

Since the first piece of the function is given by f(x) = x^2 - 2x + 2, we can evaluate the left-hand limit of f(x) as x approaches -2:

lim x->-2- f(x) = lim x->-2- (x^2 - 2x + 2) = 10

Therefore, we must have:

f(-2) = lim x->-2- f(x) = 10

a(-2) + b = 10

Next, we need to make sure that the two pieces of the function have the same derivative at x = -2. The derivative of the first piece of the function is:

f'(x) = 2x - 2

Therefore, we have:

lim x->-2+ f'(x) = lim x->-2+ 2a = f'(-2) = 2(-2) - 2 = -6

So, we must have:

lim x->-2+ f'(x) = lim x->-2+ 2a = -6

2a = -6

a = -3

Finally, substituting the values of a and b into the equation a(-2) + b = 10, we get:

-6 + b = 10

b = 16

Therefore, the function f(x) is differentiable everywhere when a = -3 and b = 16, and is given by:

f(x) = { x^2 - 2x + 2 if x <= -2

  { -3x + 16     if x > -2

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The expansion of g(x) = 8x - 1 in powers of (x - 1) is 7 + 8(x - 1).

To expand g(x) = 8x - 1 in powers of (x - 1), we use Taylor series expansion around the point x = 1. The Taylor series expansion is given by:

g(x) = g(1) + g'(1)(x - 1) + (1/2)g''(1)(x - 1)^2 + ...

First, find the derivatives of g(x) = 8x - 1:
g'(x) = 8
g''(x) = 0 (and all higher-order derivatives are also 0)

Now, evaluate these derivatives at x = 1:
g(1) = 8(1) - 1 = 7
g'(1) = 8
g''(1) = 0

Now substitute these values into the Taylor series expansion:

g(x) = 7 + 8(x - 1) + 0

Simplifying, we get:

g(x) = 7 + 8x - 8

So, the expansion of g(x) = 8x - 1 in powers of (x - 1) is:

g(x) = 8x - 1 = 7 + 8(x - 1).

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The series converges absolutely if |x - 2| < 1, and diverges if |x - 2| > 1 or |x - 2| = 1.

To determine the values of x for which the series converges, we can use the ratio test:

lim(n→∞) |[(x − 2)⁽ⁿ⁺¹⁾ / (n+1)] / [(x − 2)ⁿ / n]|

= lim(n→∞) |(x − 2) / (n+1)|

= 0, if |x - 2| < 1

= ∞, if |x - 2| > 1

= 1, if |x - 2| = 1

The series converges absolutely if |x - 2| < 1, and diverges if |x - 2| > 1 or |x - 2| = 1.

The series converges for x values in the open interval (1, 3) and diverges for x values outside this interval or on its boundary.

The ratio test may be used to identify the x values at which the series converges:

lim(n) |[(x 2)(n+1)/(n+1)] If |x - 2| 1 =, if |x - 2| >, then |[(x 2)n / n]| = lim(n) |(x 2) / (n+1)| = 0 1 = 1, if |x - 2| = 1

If |x - 2| 1, the series absolutely converges; otherwise, it diverges if either |x - 2| > 1 or |x - 2| = 1.

The series diverges for x values outside of or near the open interval (1, 3), where it converges for x values within the interval.

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The series ∑ (x - 2)^n / n converges for x ∈ (0, 4) exclusive.

To determine the convergence of the series, we can use the ratio test. The ratio test states that if the limit of the absolute value of the ratio of consecutive terms is less than 1, then the series converges.

Applying the ratio test to the given series:

lim(n→∞) |((x - 2)^(n+1) / (n+1)) / ((x - 2)^n / n)|

= lim(n→∞) |(x - 2)(n/n+1)|

= |x - 2| lim(n→∞) (n/n+1)

= |x - 2|

For the series to converge, |x - 2| < 1. Solving this inequality, we find:

-1 < x - 2 < 1

1 < x < 3

Therefore, the series ∑ (x - 2)^n / n converges for x ∈ (1, 3). However, the series does not converge at the endpoints x = 1 and x = 3. Thus, the series converges for x ∈ (0, 4) exclusive.

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Answer:

that is true

Step-by-step explanation:

Answer: C

Step-by-step explanation:

484/550=0.88

0.88*484=425.92

550-425.92=124.08

Based on the provided information, the number of student expected to say that playing sports is their favorite hobby using proportions is 50 students.

Here, we have,

If 8 out of 24 students indicated that playing sports is their favorite hobby, then we can expect that the same proportions of students will say the same thing if we surveyed 150 students. The proportion of students that indicated playing sports as their favorite hobby in the initial survey = 8/24 and in second survey = x/150.

To find the expected number of students in the second survey who would say that playing sports is their favorite hobby out of 150 students, we can use cross multiplication:

8/24 = x/150

Cross multiplying gives us:

24x = 8*150

Dividing both sides by 24 gives us:

x = (8*150)/24

Simplifying gives us:

x = 50

Therefore, we can expect that 50 out of 150 seventh grade students would say that playing sports is their favorite hobby.

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The question is incomplete. The complete question probably is: Initially, 24 seventh grade students were surveyed and 8 indicated that playing sports is their favorite hobby. Suppose 150 seventh grade students were surveyed. How many can be expected to say that playing sports is their favorite hobby.