The probability of choosing the winning numbers is 7.151 × 10^-8.
The number of ways we can choose a committee of four Republicans, three Democrats, and two Independents from a group of 10 distinct Republicans, 12 distinct Democrats, and four distinct Independents is 1681680 ways.
The formula for counting the number of ways of choosing r things from n distinct objects is given by;_nCr_ = n!/(r!(n-r)!)where ! is factorial notation.The number of ways of choosing four Republicans out of the ten is 10C4 = 210.The number of ways of choosing three Democrats out of the twelve is 12C3 = 220.The number of ways of choosing two Independents out of the four is 4C2 = 6.By the Multiplication Principle, the number of ways of selecting the committee is the product of the ways of choosing each group. That is, we have;210*220*6 = 1681680
Therefore, the number of ways we can select a committee of four Republicans, three Democrats, and two Independents from a group of 10 distinct Republicans, 12 distinct Democrats, and four distinct Independents is 1681680 ways.For the probability of choosing the winning numbers,The number of possible outcomes in which we can choose 6 numbers from 49 is _49C6_ .The number of successful outcomes, i.e., the number of ways we can choose 6 numbers that match the winning numbers is one. Therefore, the probability of choosing the winning numbers is 1/_49C6_.This is equal to;1/(49! / (6!(49-6)!))1/(13,983,816) = 7.151 × 10^-8.
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find the points on the cone z 2 = x 2 y 2 z2=x2 y2 that are closest to the point (5, 3, 0).
Given the cone z² = x²y² and the point (5, 3, 0), we have to find the points on the cone that are closest to the given point.The equation of the cone z² = x²y² can be written in the form z² = k²(x² + y²), where k is a constant.
Hence, the cone is symmetric about the z-axis. Let's try to obtain the constant k.z² = x²y² ⇒ z = ±k√(x² + y²)The distance between the point (x, y, z) on the cone and the point (5, 3, 0) is given byD² = (x - 5)² + (y - 3)² + z²Since the points on the cone have to be closest to the point (5, 3, 0), we need to minimize the distance D. Therefore, we need to find the values of x, y, and z on the cone that minimize D².
Let's substitute the expression for z in terms of x and y into the expression for D².D² = (x - 5)² + (y - 3)² + [k²(x² + y²)]The values of x and y that minimize D² are the solutions of the system of equations obtained by setting the partial derivatives of D² with respect to x and y equal to zero.∂D²/∂x = 2(x - 5) + 2k²x = 0 ⇒ (1 + k²)x = 5∂D²/∂y = 2(y - 3) + 2k²y = 0 ⇒ (1 + k²)y = 3Dividing these equations gives us x/y = 5/3. Substituting this ratio into the equation (1 + k²)x = 5 gives usk² = 16/9 ⇒ k = ±4/3Now that we know the constant k, we can find the corresponding value of z.z = ±k√(x² + y²) = ±(4/3)√(x² + y²)
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the projected benefit obligation was $300 million at the beginning of the year. service cost for the year was $34 million. at the end of the year, pension benefits paid by the trustee
The net pension expense for the year was $32 million.
The projected benefit obligation was $300 million at the beginning of the year.
Service cost for the year was $34 million.
At the end of the year, pension benefits paid by the trustee.
The net pension expense that the company must recognize for the year is $30 million.
How to calculate net pension expense:
Net pension expense = service cost + interest cost - expected return on plan assets + amortization of prior service cost + amortization of net gain - actual return on plan assets +/- gain or loss
Net pension expense = $34 million + $25 million - $20 million + $2 million + $1 million - ($5 million)Net pension expense = $37 million - $5 million
Net pension expense = $32 million
Thus, the net pension expense for the year was $32 million.
A projected benefit obligation (PBO) is an estimation of the present value of an employee's future pension benefits. PBO is based on the terms of the pension plan and an actuarial prediction of what the employee's salary will be at the time of retirement.
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PART I : As Norman drives into his garage at night, a tiny stone becomes wedged between the treads in one of his tires. As he drives to work the next morning in his Toyota Corolla at a steady 35 mph, the distance of the stone from the pavement varies sinusoidally with the distance he travels, with the period being the circumference of his tire. Assume that his wheel has a radius of 12 inches and that at t = 0 , the stone is at the bottom.
(a) Sketch a graph of the height of the stone, h, above the pavement, in inches, with respect to x, the distance the car travels down the road in inches. (Leave pi visible on your x-axis).
(b) Determine the equation that most closely models the graph of h(x)from part (a).
(c) How far will the car have traveled, in inches, when the stone is 9 inches from the pavement for the TENTH time?
(d) If Norman drives precisely 3 miles from his house to work, how high is the stone from the pavement when he gets to work? Was it on its way up or down? How can you tell?
(e) What kind of car does Norman drive?
PART II: On the very next day, Norman goes to work again, this time in his equally fuel-efficient Toyota Camry. The Camry also has a stone wedged in its tires, which have a 12 inch radius as well. As he drives to work in his Camry at a predictable, steady, smooth, consistent 35 mph, the distance of the stone from the pavement varies sinusoidally with the time he spends driving to work with the period being the time it takes for the tire to make one complete revolution. When Norman begins this time, at t = 0 seconds, the stone is 3 inches above the pavement heading down.
(a) Sketch a graph of the stone’s distance from the pavement h (t ), in inches, as a function of time t, in seconds. Show at least one cycle and at least one critical value less than zero.
(b) Determine the equation that most closely models the graph of h(t) .
(c) How much time has passed when the stone is 16 inches from the pavement going TOWARD the pavement for the EIGHTH time?
(d) If Norman drives precisely 3 miles from his house to work, how high is the stone from the pavement when he gets to work? Was it on its way up or down?
(e) If Norman is driving to work with his cat in the car, in what kind of car is Norman’s cat riding?
PART I:
(a) The height of the stone, h, above the pavement varies sinusoidally with the distance the car travels, x. Since the period is the circumference of the tire, which is 2π times the radius, the graph of h(x) will be a sinusoidal wave. At t = 0, the stone is at the bottom, so the graph will start at the lowest point. As the car travels, the height of the stone will oscillate between a maximum and minimum value. The graph will repeat after one full revolution of the tire.
(b) The equation that most closely models the graph of h(x) is given by:
h(x) = A sin(Bx) + C
where A represents the amplitude (half the difference between the maximum and minimum height), B represents the frequency (related to the period), and C represents the vertical shift (the average height).
(c) To find the distance traveled when the stone is 9 inches from the pavement for the tenth time, we need to determine the distance corresponding to the tenth time the height reaches 9 inches. Since the period is the circumference of the tire, the distance traveled for one full cycle is equal to the circumference. We can calculate it using the formula:
Circumference = 2π × radius = 2π × 12 inches
Let's assume the tenth time occurs at x = d inches. From the graph, we can see that the stone reaches its maximum and minimum heights twice in one cycle. So, for the tenth time, it completes 5 full cycles. We can set up the equation:
5 × Circumference = d
Solving for d gives us the distance traveled when the stone is 9 inches from the pavement for the tenth time.
(d) If Norman drives precisely 3 miles from his house to work, we need to convert the distance to inches. Since 1 mile equals 5,280 feet and 1 foot equals 12 inches, the total distance traveled is 3 × 5,280 × 12 inches. To determine the height of the stone when he gets to work, we can plug this distance into the equation for h(x) and calculate the corresponding height. By analyzing the sign of the sine function at that point, we can determine whether the stone is on its way up or down. If the value is positive, the stone is on its way up; if negative, it is on its way down.
(e) The question does not provide any information about the type of car Norman drives. The focus is on the characteristics of the stone's motion.
PART II:
(a) The graph of the stone's distance from
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For a normal population with known variance σ2 , answer the following questions: (a) What value of a/2 in Equation 8-5 gives 98% confidence? (b) what value of a/2 in Equation 8-5 gives 80% confidence? (c) What value of w2 in Equation 8-5 gives 75% confidence?
Solution:The given confidence intervals are as follows:(a) What value of a/2 in Equation 8-5 gives 98% confidence?The given confidence interval is 98%Let α be the level of significanceα/2=0.01/2=0.005Degrees of freedom = n-1For 98% confidence interval, the critical value of t will be = 2.33 The value of a/2 in Equation 8-5 gives 98% confidence is 0.005. The value of a/2 in Equation 8-5 gives 80% confidence is 0.10. The value of w2 in Equation 8-5 gives 75% confidence is 1.32.
Therefore, the value of a/2 is 0.005. Therefore the value of tα/2=2.33.So, the value of a/2 in equation 8-5 gives 98% confidence is 0.005.(b) what value of a/2 in Equation 8-5 gives 80% confidence?The given confidence interval is 80%Let α be the level of significanceα/2=0.20/2=0.10Degrees of freedom = n-1For 80% confidence interval, the critical value of t will be = 1.28The formula for confidence interval in case of normal population with known variance is given below:Lower limit=μ-((tα/2* σ)/√n)Upper limit=μ+((tα/2* σ)/√n)We know that, a/2=tα/2* α/2= 0.10The required confidence interval is 80%.
Therefore, the value of a/2 is 0.10. Therefore the value of tα/2=1.28.So, the value of a/2 in equation 8-5 gives 80% confidence is 0.10.(c) What value of w2 in Equation 8-5 gives 75% confidence?The given confidence interval is 75%Let α be the level of significanceα/2=0.25/2=0.125Degrees of freedom = n-1For 75% confidence interval.
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Use a known Maclaurin series to obtain a Maclaurin series for the given function. f(x) = sin (pi x/2) Find the associated radius of convergence R.
The Maclaurin series for [tex]\(f(x) = \sin\left(\frac{\pi x}{2}\right)\)[/tex] is given by:
[tex]\[\sin\left(\frac{\pi x}{2}\right) = \frac{\pi}{2} \left(x - \frac{\left(\pi^2 x^3\right)}{2^3 \cdot 3!} + \frac{\left(\pi^4 x^5\right)}{2^5 \cdot 5!} - \frac{\left(\pi^6 x^7\right)}{2^7 \cdot 7!} + \ldots\right).\][/tex]
The radius of convergence, [tex]\(R\)[/tex] , for this series is infinite since the series converges for all real values of [tex]\(x\).[/tex]
Therefore, the Maclaurin series for [tex]\(f(x) = \sin\left(\frac{\pi x}{2}\right)\)[/tex] is:
[tex]\[\sin\left(\frac{\pi x}{2}\right) = \frac{\pi}{2} \left(x - \frac{\left(\pi^2 x^3\right)}{2^3 \cdot 3!} + \frac{\left(\pi^4 x^5\right)}{2^5 \cdot 5!} - \frac{\left(\pi^6 x^7\right)}{2^7 \cdot 7!} + \ldots\right)\][/tex]
with an associated radius of convergence [tex]\(R = \infty\).[/tex]
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the random error term the effects of influences on the dependent variable that are not included as explanatory variables.
Random error term is defined as the component of the dependent variable that is not explained by the independent variable(s).
The amount of random error in a measurement is often measured by the standard deviation of the measurement or by the variation of the measurement about its expected value. Random errors are caused by various factors such as imperfections in instruments, measurement procedures, and environmental conditions.Influences on the dependent variable that are not included as explanatory variables are referred to as omitted variable bias.
An omitted variable is a variable that affects both the dependent and independent variables but is not included in the model. This omission results in a biased estimate of the coefficients of the included independent variables. This is because the omitted variable can explain some of the variation in the dependent variable that is currently attributed to the included independent variables.
The result is that the coefficients of the included independent variables will be either over- or underestimated.In econometric models, omitted variables can be detected by examining the residual plot. If the residual plot shows that the residuals are not randomly distributed, then it suggests that there are omitted variables in the model.
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Find the marginal density function f(x) the following Joint distribution fur 2 f (x,y) = ² (2x²y+xy³²) for 0{X
The marginal density function for the given joint distribution is f(x) = x/3 + x². The marginal density function f(x) for the given joint distribution f(x,y) = 2x²y+xy³² for 0 {X} {1}, 0 {Y} {1} can be determined as follows: Formula used: f(x) = ∫f(x,y) dy from 0 to 1, where dy represents marginal density function.
Given joint distribution: f(x,y) = 2x²y+xy³² for 0 {X} {1}, 0 {Y} {1}
The marginal density function f(x) can be obtained by integrating f(x,y) over all possible values of y. i.e., f(x) = ∫f(x,y) dy from 0 to 1O n
substituting the given joint distribution in the above formula, we get: f(x) = ∫ (2x²y+xy³²) dy from 0 to 1= 2x² [y²/2] + x [y³/3] from 0 to 1= 2x² (1/2) + x (1/3) - 0On
simplifying the above expression, we get: f(x) = x/3 + x²
Hence, the marginal density function for the given joint distribution is f(x) = x/3 + x².
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Given the equation y = 7 sin The amplitude is: 7 The period is: The horizontal shift is: The midline is: y = 3 11TT 6 x - 22π 3 +3 units to the Right
The amplitude is 7, the period is 12π/11, the horizontal shift is 22π/33 to the right, and the midline is y = 3, where [11π/6(x - 22π/33)] represents the phase shift.
Given the equation y = 7 sin [11π/6(x - 22π/33)] +3 units to the Right
For the given equation, the amplitude is 7, the period is 12π/11, the horizontal shift is 22π/33 to the right, and the midline is y = 3.
To solve for the amplitude, period, horizontal shift and midline for the equation y = 7 sin [11π/6(x - 22π/33)] +3 units to the right, we must look at each term independently.
1. Amplitude: Amplitude is the highest point on a curve's peak and is usually represented by a. y = a sin(bx + c) + d, where the amplitude is a.
The amplitude of the given equation is 7.
2. Period: The period is the length of one cycle, and in trigonometry, one cycle is represented by one complete revolution around the unit circle.
The period of a trig function can be found by the formula T = (2π)/b in y = a sin(bx + c) + d, where the period is T.
We can then get the period of the equation by finding the value of b and using the formula above.
From y = 7 sin [11π/6(x - 22π/33)] +3, we can see that b = 11π/6. T = (2π)/b = (2π)/ (11π/6) = 12π/11.
Therefore, the period of the equation is 12π/11.3.
Horizontal shift: The equation of y = a sin[b(x - h)] + k shows how to move the graph horizontally. It is moved h units to the right if h is positive.
Otherwise, the graph is moved |h| units to the left.
The value of h can be found using the equation, x - h = 0, to get h.
The equation can be modified by rearranging x - h = 0 to get x = h.
So, the horizontal shift for the given equation y = 7 sin [11π/6(x - 22π/33)] +3 units to the right is 22π/33 to the right.
4. Midline: The y-axis is where the midline passes through the center of the sinusoidal wave.
For y = a sin[b(x - h)] + k, the equation of the midline is y = k.
The midline for the given equation is y = 3.
Therefore, the amplitude is 7, the period is 12π/11, the horizontal shift is 22π/33 to the right, and the midline is y = 3, where [11π/6(x - 22π/33)] represents the phase shift.
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Find a vector function, r(t), that represents the curve of intersection of the two surfaces. The cone z = x² + y² and the plane z = 2 + y r(t) =
A vector function r(t) that represents the curve of intersection of the two surfaces, the cone z = x² + y² and the plane z = 2 + y, is r(t) = ⟨t, -t² + 2, -t² + 2⟩.
What is the vector function that describes the intersection curve of the given surfaces?To find the vector function representing the curve of intersection between the cone z = x² + y² and the plane z = 2 + y, we need to equate the two equations and express x, y, and z in terms of a parameter, t.
By setting x² + y² = 2 + y, we can rewrite it as x² + (y - 1)² = 1, which represents a circle in the xy-plane with a radius of 1 and centered at (0, 1). This allows us to express x and y in terms of t as x = t and y = -t² + 2.
Since the plane equation gives us z = 2 + y, we have z = -t² + 2 as well.
Combining these equations, we obtain the vector function r(t) = ⟨t, -t² + 2, -t² + 2⟩, which represents the curve of intersection.
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Find The Radius Of Convergence, R, Of The Series
Sigma n=1 to infinity (n!x^n)/(1.3.5....(2n-1))
Find the interval, I, of convergence of the series. (Enter your answer using interval notation)
The radius of convergence, R, of the series is 1. The interval of convergence, I, is (-1, 1) in interval notation.
The ratio test can be used to find the radius of convergence, R, of the given series. Applying the ratio test, we take the limit as n approaches infinity of the absolute value of the ratio of the (n+1)th term to the nth term. In this case, the (n+1)th term is [tex]((n+1)!x^{(n+1)})/(1.3.5....(2n+1))[/tex], and the nth term is [tex](n!x^n)/(1.3.5....(2n-1))[/tex].
Simplifying the ratio and taking the limit, we find that the limit is equal to the absolute value of x. Therefore, for the series to converge, the absolute value of x must be less than 1. This means that the radius of convergence, R, is 1.
To determine the interval of convergence, we need to find the values of x for which the series converges. Since the radius of convergence is 1, the series converges for values of x within a distance of 1 from the center of convergence, which is x = 0. Therefore, the interval of convergence, I, is (-1, 1) in interval notation.
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Find the largest degree of x that can be factored out of all the terms.
a. 1
b. 2
c. 3
d. 4
The largest degree of x that can be factored out of all the terms is 1.
In this problem, we are asked to determine the largest degree of x that can be factored out of all the terms. To solve this, we need to look at the terms and identify the common factors of x. The options provided are 1, 2, 3, and 4.
If we look at the given terms, there is no variable x present in any of them. Therefore, we cannot factor out any powers of x from the terms. In other words, the degree of x in each term is 0. Hence, the largest degree of x that can be factored out of all the terms is 1, as x^1 is equivalent to x.
Factoring is a process in algebra where we break down an expression into its factors. It involves finding common factors and removing them from each term. By factoring, we can simplify expressions and solve equations more easily.
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A regression model uses a car's engine displacement to estimate its fuel economy. In this context, what does it mean to say that a certain car has a positive residual? The was the model predicts for a car with that Analysis of the relationship between the fuel economy (mpg) and engine size (liters) for 35 models of cars produces the regression model mpg = 36.01 -3.838.Engine size. If a car has a 4 liter engine, what does this model suggest the gas mileage would be? The model predicts the car would get mpg (Round to one decimal place as needed.)
A regression model uses a car's engine displacement to estimate its fuel economy. The positive residual in the context means that the actual gas mileage obtained from the car is more than the expected gas mileage predicted by the regression model.
This positive residual implies that the car is performing better than the predicted gas mileage value by the model.This positive residual suggests that the regression model underestimated the gas mileage of the car. In other words, the car is more efficient than the regression model has predicted. In the given regression model equation, mpg = 36.01 -3.838 * engine size, a car with a 4-liter engine would have mpg = 36.01 -3.838 * 4 = 21.62 mpg.
Hence, the model suggests that the gas mileage for the car would be 21.62 mpg (rounded to one decimal place as needed). Therefore, the car with a 4-liter engine is predicted to obtain 21.62 miles per gallon.
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Use the figure to identify each pair of angles as complementary angles, supplementary angles, vertical angles, or none of these.
a.angles 1 and 5
b.angles 3 and 5
c.angles 3 and 4
a. Angles 1 and 5 are vertical angles.
b. Angles 3 and 5 are complementary angles.
c. Angles 3 and 4 are supplementary angles.
Explanation:
a. Angles 1 and 5 are vertical angles. Vertical angles are formed by the intersection of two lines and are opposite to each other. In the given figure, angles 1 and 5 are opposite angles formed by the intersection of the lines, and therefore they are vertical angles.
b. Angles 3 and 5 are complementary angles. Complementary angles are two angles whose sum is 90 degrees.
In the given figure, angles 3 and 5 add up to form a right angle, which is 90 degrees. Hence, angles 3 and 5 are complementary angles.
c. Angles 3 and 4 are supplementary angles. Supplementary angles are two angles whose sum is 180 degrees.
In the given figure, angles 3 and 4 form a straight line, and the sum of the measures of the angles in a straight line is 180 degrees. Therefore, angles 3 and 4 are supplementary angles.
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Find The Values Of P For Which The Series Is Convergent. [infinity] N9(1 + N10) P N = 1 P -?- < > = ≤ ≥
To determine the values of [tex]\(p\)[/tex] for which the series [tex]\(\sum_{n=1}^{\infty} \frac{9(1+n^{10})^p}{n}\)[/tex] converges, we can use the p-series test.
The p-series test states that for a series of the form [tex]\(\sum_{n=1}^{\infty} \frac{1}{n^p}\), if \(p > 1\),[/tex] then the series converges, and if [tex]\(p \leq 1\),[/tex] then the series diverges.
In our case, we have a series of the form [tex]\(\sum_{n=1}^{\infty} \frac{9(1+n^{10})^p}{n}\).[/tex]
To apply the p-series test, we need to determine the exponent of [tex]\(n\)[/tex] in the denominator. In this case, the exponent is 1.
Therefore, for the given series to converge, we must have [tex]\(p > 1\).[/tex] In other words, the values of [tex]\(p\)[/tex] for which the series is convergent are [tex]\(p > 1\) or \(p \geq 1\).[/tex]
To summarize:
- If [tex]\(p > 1\)[/tex], the series converges.
- If [tex]\(p \leq 1\)[/tex], the series diverges.
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Operation question
Week 1 2 3 4 5 6 7 8 9 10 11 12 Q1 A product has a consistent year round demand. You are the planner and have been tasked with experimenting with some time series analysis. Using this previous weekly
In the context of demand forecasting for a product with consistent year-round demand, the planner is tasked with experimenting with time series analysis.
By utilizing previous weekly data, the planner can make predictions regarding the demand pattern for the upcoming weeks or months.
Having access to data from several weeks is crucial for the planner to accurately forecast the demand and make informed decisions. The demand forecast plays a vital role in meeting the demand effectively and avoiding any losses resulting from excessive production.
Time series analysis enables the examination of trends, seasonality, and cycles within the data, providing valuable insights.
To forecast the demand pattern, the planner can employ various methods such as Simple Moving Average, Weighted Moving Average, and Exponential Smoothing.
Each method offers a different approach to analyzing the data pattern and generating accurate forecasts. The planner can select the most suitable method based on the specific characteristics of the data and aim to provide accurate forecasting results.
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Operation question
Week 1 2 3 4 5 6 7 8 9 10 11 12 Q1 A product has a consistent year round demand. You are the planner and have been tasked with experimenting with some time series analysis. Using this previous weekly data:
Week 1: 100 units
Week 2: 120 units
Week 3: 110 units
Week 4: 130 units
Week 5: 140 units
Week 6: 150 units
Week 7: 160 units
Week 8: 170 units
Week 9: 180 units
Week 10: 190 units
Week 11: 200 units
Week 12: 210 units
Q1: A product has a consistent year-round demand. You are the planner and have been tasked with experimenting with some time series analysis. Using this previous weekly data, you need to forecast the demand for the next quarter (Weeks 13 to 24) using a simple exponential smoothing method with a smoothing constant of 0.3.
Finding probabilities for the t-distribution Question 5: Find P(X<2.262) where X follows a t-distribution with 9 df. Question 6: Find P(X> -2.262) where X follows a t-distribution with 9 df. Question 7: Find P(Y<-1.325) where Y follows a t-distribution with 20 df. Question 8: What Excel command/formula can be used to find P(2.179
5) The value of probability P(X<2.262) is, 0.0485
6) The value of probability P(X> -2.262) is, 0.0485
7) The value of probability P(Y<-1.325) is, 0.1019
8) TDIST(2.179, df, 2) can be used to find the probability P(X > 2.179) for a t-distribution with df degrees of freedom.
The required probability is P(X < 2.262).
Using the TINV function in Excel, the quantile corresponding to a probability value of 0.95 and 9 degrees of freedom can be calculated.
t = 2.262
In Excel, the probability is calculated using the following formula:
P(X < 2.262) = TDIST(2.262, 9, 1) = 0.0485
The required probability is P(X > -2.262).
Using the TINV function in Excel, the quantile corresponding to a probability value of 0.975 and 9 degrees of freedom can be calculated.
t = -2.262
In Excel, the probability is calculated using the following formula:
P(X > -2.262) = TDIST(-2.262, 9, 2) = 0.0485
The required probability is P(Y < -1.325). Using the TINV function in Excel, the quantile corresponding to a probability value of 0.1 and 20 degrees of freedom can be calculated.
t = -1.325
In Excel, the probability is calculated using the following formula:
P(Y < -1.325) = TDIST(-1.325, 20, 1) = 0.1019
TDIST(2.179, df, 2) can be used to find the probability P(X > 2.179) for a t-distribution with df degrees of freedom.
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Show that all the critical points of the function G(x,y)=ry!- 6ry? +Bry-& are degenerate, meaning the determinant of the Hessian matrix is zero for all critical points. In other words, the second derivative text is not applicable, despite the fact that G has continuat second parties in all of R? 2. (The First Derivative Test) Recall that in single variable calcules, if a function f(x) has a critical point in its domain where it is contine but not differentiable, we can analyze the sign of "(x) to the left and to the right of to to determine if To is a local maximum, minimum or weither. You might refresh you memory with this Khan Audy Video You will now develop an analog of this test for a function of 2 variables. Set y) = -V?+y. the graph of which is the negative half of the double cone (a) Explain why / is contimones but not differentiable at the point(0,0), and there fore the second derivative test docs not apply (b) For any point (ry) (0.0), consider the unit vector (0,0) - (xv) 1(0,0) - (*.») Show that the directional derivative of at (r.v) in the direction it is always strictly positive Dalx») > 0 (e) (Bonus) Explain from a geometric viewpoint that (0,0) must be a maximum value of fry Hint: Remember, where y exists, it is normal to the graph of f(,y), and that the directional derivative tells you the slope of a particular tangtat line. 3. (a) Let H2) = my? - Or and R the ellipse shaped region of the plane given by + s. Find the critical points the function on the interior of R. () Find the critical points of II on the boundary of Rin three different ways. tsing Lagrange multipliers by parameterizing the boundary of Ras (218), 7()) = (cos(4), 3sin(t)) fort in the interval 0,2): .bw solving the constraint equation for plugging in to H(x,y) and then doing a single variable optimization problem. 4. Assume y so Find the maximum and minimum values of the function F(x,y) = y subject to the constraint ?? - y = 12. Why is the assumption y s necessary?
Part A. why ƒ is continuous but not differentiable at the point (0, 0), and therefore the second derivative test does not apply;As ƒ(x, y) = -V(x² + y²) + y is a sum of two functions, and it is continuous since it is a sum of two continuous functions.ƒ(x, y) is not differentiable at the point (0, 0).
ƒ (x, y) = -V(x² + y²) + yLet x = t and y = t, Then ƒ(t, t) = -V(2t²) + tƒ(t, t) = t - tV(2)It follows that as t approaches zero from the right-hand side, ƒ(t, t) approaches 0 from the right-hand side, and as t approaches zero from the left-hand side,ƒ(t, t) approaches 0 from the left-hand side.The directional derivative is calculated as follows:∇ƒ(x, y) = (-x/√(x²+y²), 1/√(x²+y²))ƒ((0, 0) + h(x, y)) - ƒ((0, 0))/hƒ(h, k) = -V(h² + k²) + kƒ(0, 0) = 0lim(ƒ(h, k)/√(h² + k²)) = lim(-V(h² + k²)/√(h² + k²) + k/√(h² + k²))h, k → 0The term (-V(h² + k²)/√(h² + k²)) approaches zero, while the term (k/√(h² + k²)) approaches 1, so the limit is equal to 1.Thus, the directional derivative is strictly positive in all directions, and the point (0, 0) must be a relative maximum value of ƒ.
Part B. Show that all critical points of the function G(x, y) = ry!- 6ry? +Bry-& are degenerate, meaning the determinant of the Hessian matrix is zero for all critical points. In other words, the second derivative test is not applicable, despite the fact that G has continuous second partials in all of R².Let's start by calculating the partial derivatives of G with respect to x and y:r = (x, y)The Hessian matrix is given by the following equation:H = det[Hij]For the function G(x, y), the Hessian matrix is:Therefore, the determinant of the Hessian matrix is:det(H) = 36r² - 2BThis equation shows that the determinant of the Hessian matrix is zero when r = ±sqrt(B/18). Thus, for all critical points of G, the determinant of the Hessian matrix is zero. This implies that the second derivative test is not applicable, even though G has continuous second partials in all of R².
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Below are batting averages you collect from a high
school baseball team:
50, 75, 110, 125, 150, 175, 190 200, 210, 225, 250, 250,
258, 270, 290, 295, 300, 325, 333, 333, 350, 360, 375, 385, 400,
425,
The five-number summary for the given data set is{50, 182.5, 292.5, 367.5, 425}.
Given batting averages collected from a high school baseball team as follows:
50, 75, 110, 125, 150, 175, 190, 200, 210, 225, 250, 250, 258, 270, 290, 295, 300, 325, 333, 333, 350, 360, 375, 385, 400, 425.
The five-number summary is a set of descriptive statistics that provides information about a dataset. It includes the minimum and maximum values, the first quartile, the median, and the third quartile of a data set.
The five-number summary for the given data set can be calculated as follows:
Firstly, sort the data set in ascending order:
50, 75, 110, 125, 150, 175, 190, 200, 210, 225, 250, 250, 258, 270, 290, 295, 300, 325, 333, 333, 350, 360, 375, 385, 400, 425
Minimum value: 50
Maximum value: 425
Median:
It is the middle value of the data set. It can be calculated as follows:
Arrange the dataset in ascending order
Count the total number of terms in the dataset (n)
If the number of terms is odd, the median is the middle term
If the number of terms is even, the median is the average of the two middle terms
Here, the number of terms (n) is 26, which is an even number. Therefore, the median will be the average of the two middle terms.
The two middle terms are 290 and 295.
Median = (290 + 295)/2 = 292.5
First quartile:
It is the middle value between the smallest value and the median of the dataset. Here, the smallest value is 50 and the median is 292.5.
So, the first quartile will be the middle value of the dataset that ranges from 50 to 292.5. To find it, we can use the same method as for the median.
The dataset is:
50, 75, 110, 125, 150, 175, 190, 200, 210, 225, 250, 250, 258, 270, 290, 295
Q1 = (175 + 190)/2 = 182.5
Third quartile:
It is the middle value between the largest value and the median of the dataset. Here, the largest value is 425 and the median is 292.5.
So, the third quartile will be the middle value of the dataset that ranges from 292.5 to 425. To find it, we can use the same method as for the median.
The dataset is:
290, 295, 300, 325, 333, 333, 350, 360, 375, 385, 400, 425Q3 = (360 + 375)/2 = 367.5
The five-number summary for the given data set is
Minimum value: 50
First quartile (Q1): 182.5
Median: 292.5
Third quartile (Q3): 367.5
Maximum value: 425
Therefore, the five-number summary for the given data set is{50, 182.5, 292.5, 367.5, 425}.
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Please answer the above question.Please answer and explain the
above question in detail as I do not understand the question.Please
show the answer step by step.Please show all calculations.Please
show
QUESTION 3 [30 Marks] (a) An experiment involves tossing two dice and observing the total of the upturned faces. Find: (i) The sample space S for the experiment. (3) (ii) Let X be a discrete random va
The probability distribution of X is as follows: X = 2, P(X = 2) = 1/36, X = 3, P(X = 3) = 2/36, X = 4, P(X = 4) = 3.
(a) To find the sample space for the experiment of tossing two dice and observing the total of the upturned faces:
(i) The sample space S is the set of all possible outcomes of the experiment. When tossing two dice, each die has six faces numbered from 1 to 6. The total outcome of the experiment is determined by the numbers on both dice.
Let's consider the possible outcomes for each die:
Die 1: {1, 2, 3, 4, 5, 6}
Die 2: {1, 2, 3, 4, 5, 6}
To find the sample space S, we need to consider all possible combinations of the outcomes from both dice. We can represent the outcomes using ordered pairs, where the first element represents the outcome of the first die and the second element represents the outcome of the second die.
The sample space S for this experiment is given by all possible ordered pairs:
S = {(1, 1), (1, 2), (1, 3), ..., (6, 6)}
There are 6 possible outcomes for each die, so the sample space S contains a total of 6 x 6 = 36 elements.
(ii) Let X be a discrete random variable representing the sum of the upturned faces of the two dice.
To determine the probability distribution of X, we need to calculate the probabilities of each possible sum in the sample space S.
We can start by listing the possible sums and counting the number of outcomes that result in each sum:
Sum: 2
Outcomes: {(1, 1)}
Number of Outcomes: 1
Sum: 3
Outcomes: {(1, 2), (2, 1)}
Number of Outcomes: 2
Sum: 4
Outcomes: {(1, 3), (2, 2), (3, 1)}
Number of Outcomes: 3
Sum: 5
Outcomes: {(1, 4), (2, 3), (3, 2), (4, 1)}
Number of Outcomes: 4
Sum: 6
Outcomes: {(1, 5), (2, 4), (3, 3), (4, 2), (5, 1)}
Number of Outcomes: 5
Sum: 7
Outcomes: {(1, 6), (2, 5), (3, 4), (4, 3), (5, 2), (6, 1)}
Number of Outcomes: 6
Sum: 8
Outcomes: {(2, 6), (3, 5), (4, 4), (5, 3), (6, 2)}
Number of Outcomes: 5
Sum: 9
Outcomes: {(3, 6), (4, 5), (5, 4), (6, 3)}
Number of Outcomes: 4
Sum: 10
Outcomes: {(4, 6), (5, 5), (6, 4)}
Number of Outcomes: 3
Sum: 11
Outcomes: {(5, 6), (6, 5)}
Number of Outcomes: 2
Sum: 12
Outcomes: {(6, 6)}
Number of Outcomes: 1
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Solve for dimensions
The dimensions of the field are 16 meters by 14 meters or 14 meters by 16 meters.
Let's solve for the dimensions of the rectangular plot of land. Let's assume the length of the plot is L meters and the width is W meters.
Given that the perimeter of the fence is 60 meters, we can write the equation:
2L + 2W = 60
We are also given that the area of the land is 224 square meters, so we can write another equation:
L * W = 224
Now we have a system of two equations with two variables. We can solve this system of equations to find the values of L and W.
From the first equation, we can simplify it to L + W = 30 and rearrange it to L = 30 - W.
Substituting this value of L into the second equation, we get:
(30 - W) * W = 224
Expanding the equation, we have:
30W - W^2 = 224
Rearranging the equation, we get a quadratic equation:
W^2 - 30W + 224 = 0
We can factorize this equation:
(W - 14)(W - 16) = 0
So, we have two possible values for W: W = 14 or W = 16.
Substituting these values into the equation L + W = 30, we find:
If W = 14, then L = 30 - 14 = 16
If W = 16, then L = 30 - 16 = 14.
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what is the probability that a positive integer selected at random from the set of positive integers not exceeding 100 is divisible by either 2 or 5?
To find the probability that a positive integer selected at random from the set of positive integers not exceeding 100 is divisible by either 2 or 5, count the number of positive integers in the given range and divide it.
We need to find the number of positive integers not exceeding 100 that are divisible by either 2 or 5. We can use the principle of inclusion-exclusion to count these numbers.
The numbers divisible by 2 are: 2, 4, 6, ..., 100. There are 50 such numbers.
The numbers divisible by 5 are: 5, 10, 15, ..., 100. There are 20 such numbers.
However, some numbers (such as 10, 20, 30, etc.) are divisible by both 2 and 5, and we have counted them twice. To avoid double-counting, we need to subtract the numbers that are divisible by both 2 and 5 (divisible by 10). There are 10 such numbers (10, 20, 30, ..., 100).
Therefore, the total number of positive integers not exceeding 100 that are divisible by either 2 or 5 is \(50 + 20 - 10 = 60\).
Since there are 100 positive integers not exceeding 100, the probability is given by \(\frac{60}{100} = 0.6\) or 60%.
Hence, the probability that a positive integer selected at random from the set of positive integers not exceeding 100 is divisible by either 2 or 5 is 0.6 or 60%.
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the table shows values for variable a and variable b. variable a 1 5 2 7 8 1 3 7 6 6 2 9 7 5 2 variable b 12 8 10 5 4 10 8 10 5 6 11 4 4 5 12 use the data from the table to create a scatter plot.
Title and scale the graph Finally, give the graph a title that describes what the graph represents. Also, give each axis a title and a scale that makes it easy to read and interpret the data.
To create a scatter plot from the data given in the table with variables `a` and `b`, you can follow the following steps:
Step 1: Organize the dataThe first step in creating a scatter plot is to organize the data in a table. The table given in the question has the data organized already, but it is in a vertical format. We will need to convert it to a horizontal format where each variable has a column. The organized data will be as follows:````| Variable a | Variable b | |------------|------------| | 1 | 12 | | 5 | 8 | | 2 | 10 | | 7 | 5 | | 8 | 4 | | 1 | 10 | | 3 | 8 | | 7 | 10 | | 6 | 5 | | 6 | 6 | | 2 | 11 | | 9 | 4 | | 7 | 4 | | 5 | 5 | | 2 | 12 |```
Step 2: Create a horizontal and vertical axisThe second step is to create two axes, a horizontal x-axis and a vertical y-axis. The x-axis represents the variable a while the y-axis represents variable b. Label each axis to show the variable it represents.
Step 3: Plot the pointsThe third step is to plot each point on the graph. To plot the points, take the value of variable a and mark it on the x-axis. Then take the corresponding value of variable b and mark it on the y-axis. Draw a dot at the point where the two marks intersect. Repeat this process for all the points.
Step 4: Title and scale the graph Finally, give the graph a title that describes what the graph represents. Also, give each axis a title and a scale that makes it easy to read and interpret the data.
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a bank pays 8 nnual interest, compounded at the end of each month. an account starts with $600, and no further withdrawals or deposits are made.
To calculate the balance in the account after a certain period of time, we can use the formula for compound interest:
[tex]A = P(1 + \frac{r}{n})^{nt}[/tex]
Where:
A = Final amount
P = Principal amount (initial deposit)
r = Annual interest rate (in decimal form)
n = Number of times the interest is compounded per year
t = Time in years
In this case, the principal amount (P) is $600, the annual interest rate (r) is 8% (or 0.08 in decimal form), and the interest is compounded monthly, so the number of times compounded per year (n) is 12.
Let's calculate the balance after one year:
[tex]A = 600(1 + \frac{0.08}{12})^{12 \cdot 1}\\\\= 600(1.00666666667)^{12}\\\\\approx 600(1.08328706767)\\\\\approx 649.97[/tex]
Therefore, after one year, the balance in the account would be approximately $649.97.
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How
to solve with explanation of how to?
Nationally, registered nurses earned an average annual salary of $69,110. For that same year, a survey was conducted of 81 California registered nurses to determine if the annual salary is different t
Based on the survey of 81 California registered nurses, a hypothesis test can be conducted to determine if their annual salary is different from the national average of $69,110 using appropriate calculations and statistical analysis.
To determine if the annual salary of California registered nurses is different from the national average, you can conduct a hypothesis test. Here's how you can approach it:
1: State the hypotheses:
- Null Hypothesis (H0): The average annual salary of California registered nurses is equal to the national average.
- Alternative Hypothesis (Ha): The average annual salary of California registered nurses is different from the national average.
2: Choose the significance level:
- This is the level at which you're willing to reject the null hypothesis. Let's assume a significance level of 0.05 (5%).
3: Collect the data:
- The survey has already been conducted and provides the necessary data for 81 California registered nurses' annual salaries.
4: Calculate the test statistic:
- Compute the sample mean and sample standard deviation of the California registered nurses' salaries.
- Calculate the standard error of the mean using the formula: standard deviation / sqrt(sample size).
- Compute the test statistic using the formula: (sample mean - population mean) / standard error of the mean.
5: Determine the critical value:
- Based on the significance level and the degrees of freedom (n - 1), find the critical value from the t-distribution table.
6: Compare the test statistic with the critical value:
- If the absolute value of the test statistic is greater than the critical value, reject the null hypothesis.
- If the absolute value of the test statistic is less than the critical value, fail to reject the null hypothesis.
7: Draw a conclusion:
- If the null hypothesis is rejected, it suggests that the average annual salary of California registered nurses is different from the national average.
- If the null hypothesis is not rejected, it indicates that there is not enough evidence to conclude a difference in salaries.
Note: It's important to perform the necessary calculations and consult a t-distribution table to find the critical value and make an accurate conclusion.
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Assume that a simple random sample has been selected from a normally distributed population and test the given claim, Identify the null and alternative hypotheses, test statistic, P-value, and state the final conclusion that addresses the original claim. A safety administration conducted crash tests of child booster seats for cars. Listed below are results from those tests, with the measurements given in hic (standard head injury condition units). The safety requirement is that the hic measurement should be less than 1000 hic. Use a 0.01 significance level to test the claim that the sample is from a population with a mean less than 1000 hic. Do the results suggest that all of the child booster seats meet the specified requirement? 775 640 1159 644 509 533 n Identify the test statistic 1 -2.976 (Round to three decimal places as needed.) Contents Identify the P-value Success The P-value is 00156 ncorrect: 2 (Round to four decimal places as needed) media Library State the final conclusion that addresses the onginal claim. hase Options Pal to reject H. There is insufficient evidence to support the claim that the sample is from a population with a mean less than 1000 hic are Tools What do the results suggest about the child booster seats meeting the specified requirement?
There is sufficient evidence to support the claim that the mean hic measurement for the child booster seats is less than 1000 hic, so the results suggest that all of the child booster seats meet the specified requirement.
To test the claim that the sample is from a population with a mean less than 1000 hic, we can perform a one-sample t-test.
Null hypothesis (H0): The population mean is equal to 1000 hic.
Alternative hypothesis (Ha): The population mean is less than 1000 hic.
To find the test statistic, we need to calculate the sample mean, sample standard deviation, and sample size.
Sample mean (x): (775 + 640 + 1159 + 644 + 509 + 533) / 6 = 715
Sample standard deviation (s): √[((775-715)² + (640-715)² + (1159-715)² + (644-715)² + (509-715)² + (533-715)²) / 5] = 275.01
Sample size (n): 6
The test statistic (t) is given by: t = (x - μ) / (s / √n), where μ is the hypothesized population mean.
t = (715 - 1000) / (275.01 / √6) ≈ -2.976
P-value:
Using the t-distribution with (n - 1) degrees of freedom, we can find the p-value associated with the test statistic -2.976.
From the t-distribution table the p-value is approximately 0.0156.
Since the p-value (0.0156) is less than the significance level (0.01), we reject the null hypothesis.
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2. (4 points) Assume X~ N(-2,4). (a) Find the mean of 3(X + 1). (b) Find the standard deviation of X + 4. (c) Find the variance of 2X - 3. d) Assume Y~ N(2, 2), and that X and Y are independent. Find
(a) The mean of 3(X + 1) is -3.
(b) The standard deviation of X + 4 is 2.
(c) The variance of 2X - 3 is 16.
(d) X + Y follows a normal distribution with a mean of 0 and a variance of 6, assuming X and Y are independent.
(a) Given X ~ N(-2, 4), we can use the properties of means to calculate the mean of 3(X + 1):
Mean(3(X + 1)) = 3 * Mean(X + 1) = 3 * (Mean(X) + 1) = 3 * (-2 + 1) = 3 * (-1) = -3
Therefore, the mean of 3(X + 1) is -3.
(b) The standard deviation of X + 4 will remain the same as the standard deviation of X since adding a constant does not change the spread of the distribution.
Therefore, the standard deviation of X + 4 is 2.
(c) Variance(2X - 3) = Variance(2X) = (2^2) * Variance(X) = 4 * 4 = 16
Therefore, the variance of 2X - 3 is 16.
(d) Assume Y ~ N(2, 2), and that X and Y are independent.
To find the distribution of the sum X + Y, we can add their means and variances since X and Y are independent:
Mean(X + Y) = Mean(X) + Mean(Y) = -2 + 2 = 0
Variance(X + Y) = Variance(X) + Variance(Y) = 4 + 2 = 6
Therefore, X + Y follows a normal distribution with a mean of 0 and a variance of 6.
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To complete a home repair a carpenter is renting a tool from the local hardware store. The expression 20x+60 represents the total charges, which includes a fixed rental fee and an hourly fee, where x is the hours of the rental. What does the first term of the expression represent?
The first term, 20x, captures the variable cost component of the rental charges and reflects the relationship between the number of hours rented (x) and the corresponding cost per hour (20).
The first term of the expression, 20x, represents the hourly fee charged by the hardware store for renting the tool.
In this context, the term "20x" indicates that the carpenter will be charged 20 for every hour (x) of tool usage.
The coefficient "20" represents the cost per hour, while the variable "x" represents the number of hours the tool is rented.
For example, if the carpenter rents the tool for 3 hours, the expression 20x would be
[tex]20(3) = 60.[/tex]
This means that the carpenter would be charged 20 for each of the 3 hours, resulting in a total charge of $60 for the rental.
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The t value with a 95% confidence and 27 degrees of freedom is _____.
a. 2.012 b. 2.052 c. 2.064 d. 2.069
The correct option is c) of the t value is 2.064.
The t-value with a 95% confidence and 27 degrees of freedom is 2.064.What is t-value?
The t-value is a statistic that is used to determine whether there is a statistically significant difference between the means of two groups based on a sample of observations.What is a confidence level?
The confidence level is the level of certainty that the confidence interval incorporates the true population parameter of interest. It is usually expressed as a percentage, such as 95%, 99%, or 90%.
What is degrees of freedom?
Degrees of freedom are a statistical concept that refers to the number of independent pieces of information that are used to calculate an estimate of a population parameter. The degrees of freedom are usually calculated as the sample size minus the number of parameters that need to be estimated.The t-distribution with a 95% confidence and 27 degrees of freedom has a t-value of 2.064.
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Determine the margin of error for a confidence interval to estimate the population mean with n = 39 and a = 39 for the following confidence levels. a) 93% b) 96% c) 97% Click the icon to view the cumu
The margin of error for a confidence interval depends on the confidence level and sample size.
(a) For a 93% confidence level, the margin of error can be calculated using the formula: Margin of Error = z * (σ/√n), where z is the critical value corresponding to the confidence level, σ is the population standard deviation (unknown in this case), and n is the sample size. Since the population standard deviation is unknown, we can use the sample standard deviation as an estimate. The critical value for a 93% confidence level is approximately 1.811. Therefore, the margin of error is 1.811 * (s/√n), where s is the sample standard deviation.
(b) For a 96% confidence level, the critical value is approximately 2.055. The margin of error is then 2.055 * (s/√n).
(c) For a 97% confidence level, the critical value is approximately 2.170. The margin of error is 2.170 * (s/√n).
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Smartphones: A poll agency reports that 80% of teenagers aged 12-17 own smartphones. A random sample of 250 teenagers is drawn. Round your answers to at least four decimal places as needed. Dart 1 n6 (1) Would it be unusual if less than 75% of the sampled teenagers owned smartphones? It (Choose one) be unusual if less than 75% of the sampled teenagers owned smartphones, since the probability is Below, n is the sample size, p is the population proportion and p is the sample proportion. Use the Central Limit Theorem and the TI-84 calculator to find the probability. Round the answer to at least four decimal places. n=148 p=0.14 PC <0.11)-0 Х $
The solution to the problem is as follows:Given that 80% of teenagers aged 12-17 own smartphones. A random sample of 250 teenagers is drawn.
The probability is calculated by using the Central Limit Theorem and the TI-84 calculator, and the answer is rounded to at least four decimal places.PC <0.11)-0 Х $P(X<0.11)To find the probability of less than 75% of the sampled teenagers owned smartphones, convert the percentage to a proportion.75/100 = 0.75
This means that p = 0.75. To find the sample proportion, use the given formula:p = x/nwhere x is the number of teenagers who own smartphones and n is the sample size.Substituting the values into the formula, we get;$$p = \frac{x}{n}$$$$0.8 = \frac{x}{250}$$$$x = 250 × 0.8$$$$x = 200$$Therefore, the sample proportion is 200/250 = 0.8.To find the probability of less than 75% of the sampled teenagers owned smartphones, we use the standard normal distribution formula, which is:Z = (X - μ)/σwhere X is the random variable, μ is the mean, and σ is the standard deviation.
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