Evaluate using long division first to write f(x) as the sum of a polynomial and a proper rational function. (Remember to use absolute values where appropriate.) (x3 + 8x2 + 6) dx x + 8

Answer:

Pencils cost $2

Markers cost $1

Erasers cost $0.25

Step-by-step explanation:

Let pencils be denoted by P, markers by M and erasers by E. The following linear system can be modeled from the data provided:

[tex]5P+7M+8E = 19\\7P+5M+8E=21\\4P+8M+7E =17.75[/tex]

Solving the linear system:

[tex]2P-2M= 2\\P=1+M\\4+4M+8M+7E =17.75\\\\12M+7E = 13.75\\12M+8E=14\\E=0.25\\M=\frac{14-0.25*8}{12}\\ M=1\\P=1+1=2[/tex]

Pencils cost $2

Markers cost $1

Erasers cost $0.25

Answer:

Step-by-step explanation:

Answer:

A) P=2.28%

B) P=28.57%

C) I expect 10 students to be unable to complete the exam in the alloted time.

Step-by-step explanation:

In order to solve this problem, we will need to find the respective z-scores. The z-scores are found by using the following formula:

[tex]z=\frac{x-\mu}{sigma}[/tex]

Where:

z= z-score

x= the value to normalize

[tex]\mu = mean[/tex]

[tex]\sigma[/tex]= standard deviation

The z-score will help us find the area below the normal distribution curve, so in order to solve this problem we need to shade the area we need to find. (See attached picture)

A) First, we find the z-score for 60 minutes, so we get:

[tex]z=\frac{60-80}{10}=-2[/tex]

So now we look for the z-score on our normal distribution table. Be careful with the table you are using since some tables will find areas other than the area between the mean and the desired data. The table I used finds the area between the mean and the value to normalize.

so:

A=0.4772 for a z-score of -2

since we want to find the number of students that take less than 60 minutes, we subtract that decimal number from 0.5, so we get:

0.5-0.4772=0.0228

therefore the probability that a student finishes the exam in less than 60 minutes is:

P=2.28%

B) For this part of the problem, we find the z-score again, but this time for a time of 75 minutes:

[tex]z=\frac{75-80}{10}=-0.5[/tex]

and again we look for this z-score on the table so we get:

A=0.1915 for a z-score of -0.5

Now that we got this area we subtract it from the area we found for the 60 minutes, so we get:

0.4772-0.1915=0.2857

so there is a probability of P=28.57% of chances that the students will finish the test between 60 and 75 minutes.

C) Finally we find the z-score for a time of 90 minutes, so we get:

[tex]z=\frac{90-80}{10}=1[/tex]

We look for this z-score on our table and we get that:

A=0.3413

since we need to find how many students will take longer than 90 minutes to finish the test, we subtract that number we just got from 0.5 so we get:

0.5-0.3413=0.1586

this means there is a 15.86% of probabilities a student will take longer than 90 minutes. Now, since we need to find how many of the 60 students will take longer than the 90 available minutes, then we need to multiply the total amount of students by the percentage we previously found, so we get:

60*0.1586=9.516

so approximately 10 Students will be unavailable to complete the exam in the allotted time.

Answer:

Part A:

Probability is P(z<-2)=1-0.9772=0.0228

Part B:

P(-2<z<-0.5)=0.2857

Part C:

Number of students unable to complete the exam=60-50=10 students

Step-by-step explanation:

Part A:

Mean=μ=80 min

Standard Deviation=σ=10 min

Formula:

[tex]z=\frac{\bar x- \mu}{\sigma}[/tex]

where:

[tex]\bar x=60\ min[/tex]

[tex]z=\frac{60-80}{10}\\ z=-2[/tex]

Probability is P(z<-2)

From the probability distribution tables (Cumulative Standardized normal distribution table)

Probability is P(z<-2)=1-0.9772=0.0228

Part B:

For 75 min:

[tex]z=\frac{75-80}{10}\\ z=-0.5[/tex]

For [tex]\bar x=60\ min[/tex]

[tex]z=\frac{60-80}{10}\\ z=-2[/tex]

From the probability distribution tables (Cumulative Standardized normal distribution table)

P(-2<z<-0.5)=P(z<-0.5)-P(z<-2)

P(-2<z<-0.5)=(1-0.6915)-(1-0.9772)

P(-2<z<-0.5)=0.2857

Part C:

[tex]\bar x=90\ min[/tex]

[tex]z=\frac{90-80}{10}\\ z=1[/tex]

From the probability distribution tables (Cumulative Standardized normal distribution table)

Probability is P(z<1)=0.8413

Number of students=0.8413*60

Number of students to complete the exam=50.478≅50

Number of students unable to complete the exam=60-50=10 students

Answer:

See below

Step-by-step explanation:

a) Direct proof: Let m be an odd integer and n be an even integer. Then, there exist integers k,j such that m=2k+1 and n=2j. Then mn=(2k+1)(2j)=2r, where r=j(2k+1) is an integer. Thus, mn is even.

b) Proof by counterpositive: Suppose that m is not even and n is not even. Then m is odd and n is odd, that is, m=2k+1 and n=2j+1 for some integers k,j. Thus, mn=4kj+2k+2j+1=2(kj+k+j)+1=2r+1, where r=kj+k+j is an integer. Hence mn is odd, i.e, mn is not even. We have proven the counterpositive.

c) Proof by contradiction: suppose that rp is NOT irrational, then rp=m/n for some integers m,n, n≠. Since r is a non zero rational number, r=a/b for some non-zero integers a,b. Then p=rp/r=rp(b/a)=(m/n)(b/a)=mb/na. Now n,a are non zero integers, thus na is a non zero integer. Additionally, mb is an integer. Therefore p is rational which is contradicts that p is irrational. Hence np is irrational.

d) Proof by cases: We can verify this directly with all the possible orderings for a,b,c. There are six cases:

a≥b≥c, a≥c≥b, b≥a≥c, b≥c≥a, c≥b≥a, c≥a≥b

Writing the details for each one is a bit long. I will give you an example for one case: suppose that c≥b≥a then max(a, max(b,c))=max(a,c)=c. On the other hand, max(max(a, b),c)=max(b,c)=c, hence the statement is true in this case.

e) Direct proof: write a=m/n and b=p/q, with m,q integers and n,q nonnegative integers. Then ab=mp/nq. mp is an integer, and nq is a non negative integer. Hence ab is rational.

f) Direct proof. By part c), √2/n is irrational for all natural numbers n. Furthermore, a is rational, then a+√2/n is irrational. Take n large enough in such a way that b-a>√2/n (b-a>0 so it is possible). Then a+√2/n is between a and b.

g) Direct proof: write m+n=2k and n+p=2j for some integers k,j. Add these equations to get m+2n+p=2k+2j. Then m+p=2k+2j-2n=2(k+j-n)=2s for some integer s=k+j-n. Thus m+p is even.

Answer: 2

Step-by-step explanation:

16/9=1.7

=Approximately=2

Answer:

2 is the largest possible value.

Step-by-step explanation:

Given Data:

Length of one side       = 9

Length of second side = 16

Let AB and BC sides of triangle be of length 9 and 16 respectively as shown in figure attached.

Now, let sides AD and CF be the respective altitudes.

Also, ∠ABC = ∅ (as shown in figure)                                    

If AD and CF are the respective altitudes then,

we have

       AD = 9Sin∅ ;

       CF = 16Sin∅;

By dividing both sides, we get

       AD/CF = 9/16

This equation shows that is independant of angle ∅.

Now, let ∠BAC = α

Now we have, BE = 9 sinα

and                   FC = AC sinα

By dividing both sides, we get

       BE/FC=9/AC

Similarly we also have,

       BE/AD = 16/AC

ABC is a triangle as long as length of AC is ithin range of 8 to 24 i.e, 8≤AC≤24 (because sum of any two sides of triangle should be greater than length of third side)

Using these values we get ranges of:

9/24 ≤ BF/FC ≤ 9/8  ;  2/3 ≤ BE/AD ≤ 2

So,

2 is the largest possible value of the ratio of any two of these altitudes.

Answer:

Step-by-step explanation:

Hello!

You have a bag with 181 peanuts in it.

65 of the shells contain one peanut. ⇒ 16 are cracked and 49 are complete.

111 of the shells contain two peanuts. ⇒ 30 are cracked 81 are complete.

5 of the shells have three peanuts and none of them is cracked.

A. What is the probability the shell is cracked?

To calculate the probability of the shell bein cracked you have to add all possible cases in which it is cracked and divide it by the total of peanuts in the bag:

[tex]P(Cracked)= \frac{(16+30)}{181}= 0.25[/tex]

B. What is the probability the shell is not cracked (Cr) and it contains two peanuts(2p)?

This probability is an intersection P(Cr∩2p), to calculate it you have to divide the total of peanuts that fulfill these characteristics and divide it by the total number of peanuts in the bag.

[tex]P(Crn2p)= \frac{30}{181}= 0.17[/tex]

C. What is the probability the shell is not cracked (Cr') or it contains two peanuts(2p)?

This probability is the union between two events, the event "cracked" and the event "two peanuts", symbolically: P(Cr'∪2p), these two events are not mutually exclusive, this means that they can happen at the same time, you have to apply the following formula to calculate it:

[tex]P(Cr'u2p)= P(Cr') + P(2p) - P(Cr'n2p)[/tex]

Since these events aren't mutually exclusive, some of them fulfill both categories, this means they are counted when you calculate the probability of "not cracked" and again when you calculate the probability of "2 peanuts" therefore you need to subtract their intersection to obtain the correct probability.

[tex]P(Cr'u2p)= \frac{(49+81+5)}{181} + (\frac{111}{181} ) - (\frac{81}{181} )= 0.76+0.61-0.45=0.92[/tex]

D. What is the probability the shell is not cracked given that it contains two peanuts?

This is a conditional probability, this means that both events are dependant and the occurrence of "2p" modifies the probability of the peanut shell to be "Cr'", symbolically: P(Cr'/2p) and you calculate it using the following formula:

[tex]P(Cr'/2p)= \frac{P(Cr'n2p)}{P(2p)}= \frac{0.45}{0.61}= 0.74[/tex]

I hope it helps!

A) The probability the shell is cracked is 25.4%.

B) The probability the shell is not cracked and it contains two peanuts is 44.75%.

C) The probability the shell is not cracked or it contains two peanuts is 91.16%.

D) The probability the shell is not cracked given that it contains two peanuts is 72.97%.

Since a bag of peanuts in their shells contains 181 peanuts. 65 of the shells contain one peanut, 111 of the shells contain two peanuts, and the rest contain three peanuts, and, of the shells with one peanut, 16 of them are cracked, and of the shells with two peanuts, 30 of them are cracked, while none of the shells with three peanuts are cracked, and one peanut shell is randomly selected from the bag, to determine A) what is the probability the shell is cracked; B) what is the probability the shell is not cracked and it contains two peanuts; C) what is the probability the shell is not cracked or it contains two peanuts; and D) what is the probability the shell is not cracked given that it contains two peanuts; the following calculations must be performed:

A)

B)

C)

D)

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Answer:

a) -1.013

b) 2.32

c) -2

d) 0.9867

e) 2.9867                                              

Step-by-step explanation:

We are given the following information in the question:

Mean, μ = $775

Standard Deviation, σ = $75

We are given that the distribution of  average price of a laptop is a bell shaped distribution that is a normal distribution.

Formula:

[tex]z_{score} = \displaystyle\frac{x-\mu}{\sigma}[/tex]

We have to find z-score for corresponding

a. $699

[tex]z = \displaystyle\frac{699 - 775}{75} = -1.013[/tex]

b. $949

[tex]z = \displaystyle\frac{949 - 775}{75} = 2.32[/tex]

c. $625

[tex]z = \displaystyle\frac{625 - 775}{75} = -2[/tex]

d. $849

[tex]z = \displaystyle\frac{849 - 775}{75} = 0.9867[/tex]

e. $999

[tex]z = \displaystyle\frac{999 - 775}{75} = 2.9867[/tex]

a. The z-score for $699 is -1.20.

b. The z-score for $949 is 2.13.

c. The z-score for $625 is -2.33.

d. The z-score for $849 is 0.67.

e. The z-score for $999 is 3.13.

To calculate the z-score for each price, you can use the formula:

[tex]\[Z = \frac{X - \mu}{\sigma}\][/tex]

Where:

- [tex]\(Z\)[/tex] is the z-score.

- [tex]\(X\)[/tex] is the value you want to calculate the z-score for (the given price).

- [tex]\(\mu\)[/tex] is the mean (average) price of laptops, which is $775 in this case.

- [tex]\(\sigma\)[/tex]is the standard deviation of laptop prices, which is $75.

Now, let's calculate the z-scores for the given prices:

a. For $699: [tex]\(Z = \frac{699 - 775}{75} = -1.20\)[/tex]

b. For $949:[tex]\(Z = \frac{949 - 775}{75} = 2.13\)[/tex]

c. For $625: [tex]\(Z = \frac{625 - 775}{75} = -2.33\)[/tex]

d. For $849: [tex]\(Z = \frac{849 - 775}{75} = 0.67\)[/tex]

e. For $999: [tex]\(Z = \frac{999 - 775}{75} = 3.13\)[/tex]

The z-score measures how many standard deviations a particular value is away from the mean.

A positive z-score indicates a value above the mean, while a negative z-score indicates a value below the mean.

The absolute value of the z-score tells you how many standard deviations the value is from the mean.

In this context, it helps you understand how each laptop price compares to the average price in terms of standard deviations.

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Answer:

a) y= y₀+vy*t , x= x₀+vx*t

b) they are closest at t= 29.23 s

c) r min = 63.79 ft

Step-by-step explanation:

a) denoting v as velocities and "₀" as initial conditions , then the position of Sven is given by the coordinate (0,y) where

y= y₀+vy*t

and the position of Rudyard is given by the coordinate (x,0) where

x= x₀+vx*t

b) the distance r between Sven and Rudyard  is given by

r²=x²+y²

the distance will be minimum when the derivative of r with respect to the time is 0 . Then taking the derivative of the equation above

2*r*dr/dt = 2*x*dx/dt + 2*y*dy/dt

since dx/dt= vx and dy/dt= vy , then

r*dr/dt = x*vx+ y*vy

dr/dt = (x*vx+ y*vy)/r

assuming that r cannot be 0 , then

dr/dt =0 → x*vx+ y*vy = 0

(x₀+vx*t)*vx + (y₀+vy*t)*vy = 0

-(x₀*vx + y₀*vy) = (vx²+vy²)*t

t= -(x₀*vx + y₀*vy)/(vx²+vy²)

replacing values

t= -(x₀*vx + y₀*vy)/(vx²+vy²) = -[ 140 ft*(-6ft/s) + (-170 ft)*4 ft/s]/[ (-6ft/s)²+ (4 ft/s)²] = 29.23 s

then they are closest at t= 29.23 s

and the minimum distance will be

x = x₀ + vx*t = 140 ft+(-6ft/s)*29.23 s = -35.38 ft

y= y₀+vy*t = (-170 ft)+ 4 ft/s*29.23 s = -53.08 ft

r min = √(x²+y²)= 63.79 ft

r min = 63.79 ft

Note

to prove our assumption that r is not 0 , then x and y should be 0 at the same time. thus

0= y₀+vy*t → t = (-y₀)/vy = -140 ft/(-6ft/s) = 26.33 s

0= x₀+vx*t → t= (-x₀)/vx = -(-170 ft)/4 ft/s = 42.5 s

then r is never 0

Answer:

[tex] z = \frac{205-233.3396}{37.498}= -0.76[/tex]

So then the value of 205 it's 0.76 deviations below the population mean on this case

Step-by-step explanation:

For this case we have the following data given:

177, 205, 210, 210, 232, 205, 185, 185, 178, 210, 206, 212, 184, 174, 185, 242, 188, 212, 215, 247, 241, 223, 220, 260, 245, 259, 278, 270, 280, 295, 275, 285, 290, 272, 273, 280, 285, 286, 200, 215, 185, 230, 250, 241, 190, 260, 250, 302, 265, 290, 276, 228, 265

And these values represent the weigths of all the team members of the Arizona Cardinals

Now if we organize the data values from the smallest to the largest we have:

174 177 178 184 185 185 185 185 188 190 200 205 205 206 210 210 210 212 212 215 215 220 223 228 230  232 241 241 242 245 247 250 250 259 260 260 265 265 270 272 273 275 276 278 280 280 285 285 286 290  290 295 302

For this case we can calculate the mean with the following formula:

[tex] \mu = \frac{\sum_{i=1}^n X_i}{n}[/tex]

And if we replace we got:

[tex] \mu = 233.3396[/tex]

And for the deviation we can use the following formula:

[tex] \sigma =\sqrt{\frac{\sum_{i=1}^n (X_i -\bar X)^2}{n-1}}[/tex]

And if we replace we got:

[tex] \sigma = 37.498[/tex]

And in order to calculate How many standard deviations above or below the mean was he we can use the z score formula given by:

[tex] z = \frac{x -\mu}{\sigma}[/tex]

And we assume that x=205 and if we replace we have:

[tex] z = \frac{205-233.3396}{37.498}= -0.76[/tex]

So then the value of 205 it's 0.76 deviations below the population mean on this case

sin 40° = 0.6428

Step-by-step explanation:

The complementary ratio of sine is cos and vice-versa.

sin θ = cos (90 - θ)

cos θ = sin (90 - θ)

So cos 50° = sin (90 - 50)°

                   = sin 40°

sin 40° = 0.6428

This indicates that the complement of cos 50° is sin 40° which is equal to 0.6428.

To find out how many inches must fall in December so that the average monthly precipitation for October, November, and December exceeds 3.11 inches, subtract the precipitation from October and November from the total precipitation. Therefore, 3.3 inches must fall in December.

To find out how many inches must fall in December so that the average monthly precipitation for October, November, and December exceeds 3.11 inches, we can use the formula for calculating average:

Average = (Total precipitation) / (Number of months)

Let's solve for the total precipitation:

Total precipitation = Average precipitation * Number of months

Total precipitation = 3.11 inches * 3 months = 9.33 inches

To find out how many inches must fall in December, we subtract the precipitation from October and November from the total precipitation:

December precipitation = Total precipitation - (October precipitation + November precipitation)

December precipitation = 9.33 inches - (2.98 inches + 3.05 inches) = 3.3 inches

Therefore, in order for the average monthly precipitation for these months to exceed 3.11 inches,

3.3 inches

must fall in December.

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Answer: he would need 77 scoops of fertilizer.

Step-by-step explanation:

The measure of Horalco's garden is

10 1/2 ft by 5 1/2 ft. Converting to improper fraction, it becomes 21/2 ft by 11/2 ft. The garden is rectangular in shape and the formula for determining the area of a rectangle is expressed as

Area = length × width.

Therefore, area of the garden is

21/2 × 11/2 = 231/4 ft²

He needs 1 1/3 scoops of fertilizer for each square foot of the garden. Converting to improper fraction, it becomes 4/3 scoops. Therefore, the number of scoops of fertilizer that Horaclo need for the entire garden is

4/3 × 231/4 = 77 scoops of fertilizer.

Answer:

A. 13.9 and 14.1 inches

See explanation below.

Step-by-step explanation:

Previous concepts

Normal distribution, is a "probability distribution that is symmetric about the mean, showing that data near the mean are more frequent in occurrence than data far from the mean".

The Z-score is "a numerical measurement used in statistics of a value's relationship to the mean (average) of a group of values, measured in terms of standard deviations from the mean".  

Solution to the problem

Let X the random variable that represent the outside diameters of a population, and for this case we know the distribution for X is given by:

[tex]X \sim N(14,0.1)[/tex]  

Where [tex]\mu=14[/tex] and [tex]\sigma=0.1[/tex]

If we want the middle 68% of the data we need to have on the tails 16% on each one

For this part we want to find a value a, such that we satisfy this condition:

[tex]P(X>a)=0.84[/tex]   (a)

[tex]P(X<a)=0.16[/tex]   (b)

Both conditions are equivalent on this case. We can use the z score again in order to find the value a.  

As we can see on the figure attached the z value that satisfy the condition with 0.16 of the area on the left and 0.84 of the area on the right it's z=-0.994. On this case P(Z<-0.994)=0.16 and P(z>-0.994)=0.84

If we use condition (b) from previous we have this:

[tex]P(X<a)=P(\frac{X-\mu}{\sigma}<\frac{a-\mu}{\sigma})=0.16[/tex]  

[tex]P(z<\frac{a-\mu}{\sigma})=0.16[/tex]

But we know which value of z satisfy the previous equation so then we can do this:

[tex]z=-0.994<\frac{a-14}{0.1}[/tex]

And if we solve for a we got

[tex]a=14 -0.994*0.1=13.9[/tex]

And since the distribution is symmetrical for the upper limit we can use z = 0.994 and we have:

[tex]z=0.994<\frac{a-14}{0.1}[/tex]

And if we solve for a we got

[tex]a=14 +0.994*0.1=14.1[/tex]

So the correct answer for this case would be:

A. 13.9 and 14.1 inches

Answer:395.75lb

Step-by-step explanation:see attachment

Answer:

P ( disease | positive ) = 0.68

Step-by-step explanation:

This is a classic question of Bayes' Theorem, which calculates probability in a scenario where one event has already occured.

In this case, we have the following data:

P ( disease ) = 0.10

P (no disease) = 0.90

P ( positive | disease ) = 0.95

P ( positive | no disease) = 0.05

Formula to use:

[tex]P ( disease\ |\ positive ) = \frac{P(disease)\ P(positive\ |\ disease)}{P(disease)\ P(positive\ |\ disease) + P(no\ disease)\ P(positive\ |\ no\ disease)}[/tex]We substitute the values from our data in this formula:

[tex]\frac{(0.10) \times (0.95)}{(0.10)\times(0.95) + (0.90)\times(0.05)} \\\\\frac{0.095}{0.095+0.045}\\\\\frac{0.095}{0.14}\\ \\\\\=0.68[/tex] (Rounded off to two decimal places)

Hence, the probability of a person testing positive once they have the disease is 68%.

Answer:

B

Step-by-step explanation:

Since the figure was not supplied, let's focus on that principle.

To calculate it simply subtract the area of the square minus the area of the circle. Given the side of the square 20 ft

1. Square Area

[tex]S= s^{2}\\S=20^{2} \Rightarrow S=400 ft^{2}[/tex]

2.Circle Area

Notice the radius is half the square side, i.e. 10 ft

[tex]S=\pi*R^{2}\\S=3.14*(10)^{2}\\S=314 \:ft^{2}\\[/tex]

Subtracting the area of the square and the area of the circle:

[tex]400-314=86 ft^{2}[/tex]

The area of the shaded is 86 feet².

Thus, option (B) is correct.

Let's assume the side length of the square is "s".

The area of the square is then given by s².

Substitute the side s = 20 into above formula as

Area of square = 20 x 20

                         = 400 square feet

Now, Area of circle = πr²

                                = 3.14 x (10)²

                                = 3.14 x 100

                                = 314 square feet.

Now, the area of the shaded region can be calculated as:

Area of shaded region = Area of square - Area of circle

                                      = 400 - 314

                                      = 86 feet²

Thus, option (B) is correct.

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The largest intervals on which the existence and uniqueness theorem guarantees a unique solution for the given initial conditions.

The interval a < t < b on which the existence and uniqueness theorem for first order linear differential equations guarantees the existence of a unique solution depends on the initial conditions. For the given initial conditions:

Answer:

your... syllabus is different from mine....

Step-by-step explanation:

which class u study

Answer:

A) True

B) True

C) False

Step-by-step explanation:

Knowing that the collinear points are all those that pass through a line, we have:

A) given two points they form a line, by themselves they are collinear  (graph 1)

B) Can be or not can be (graph 2)

C) Can be not must be (graph 3)

We want to see if the given statements are true or false.

We will see that:

Two or more points are collinear if we can draw a line that connects them.

A) Whit that in mind, the first statement is true, 2 points is all we need to draw a line, thus two different points are always collinear, so the first statement is true.

B) For the second statement suppose you have a line already drawn, then you can draw 4 points along the line, if you do that, you will have 4 collinear points, so yes, 4 points can be collinear.

C) For the final statement, again assume you have a line, you used 2 points to draw that line (because two points are always collinear). Now you could have more points outside the line, thus, the set of all the points is not collinear (not all the points are on the same line).

So sets of 3 or more points can be collinear, but not "must" be collinear, so the last statement is false.

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Answer:

answers and explanation is shown in the attachment

Step-by-step explanation:

The detailed steps and necessary substitution is as shown in the attached files.

Answer:

a) 6.68%

b) 0.135%

c) 43.32%

d) 1.7

e) -2.5

Step-by-step explanation:

a)

P(X>615)=P(z>(615-540)/50)

P(X>615)=P(z>1.5)

P(X>615)=P(0<z<∞)-P(0<z<1.5)

P(X>615)=0.5-0.4332

P(X>615)=0.0668

The percentage of students have an SAT math score greater than 615 is 6.68%

b)

P(X>690)=P(z>(690-540)/50)

P(X>690)=P(z>3)

P(X>690)=P(0<z<∞)-P(0<z<3)

P(X>690)=0.5-0.49865

P(X>690)=0.00135

The percentage of students have an SAT math score greater than 690 is 0.135%

c)

P(465<X<540)=P((465-540)/50<z<(540-540)/50))

P(465<X<540)=P(-1.5<z<0)

P(465<X<540)=0.4332

The percentage of students have an SAT math score between 465 and 540 is 43.32%

d)

z=(625-540)/50

z=85/50

z=1.7

The z-score for student with an SAT math score of 625 is 1.7.

e)

z=(415-540)/50

z=-125/50

z=-2.5

The z-score for a student with an SAT math score of 415 is -2.5.

Answer:

Hypothesis Test states that we will accept null hypothesis.

Step-by-step explanation:

We are given that an engineer is comparing voltages for two types of batteries (K and Q).

where, [tex]\mu_1[/tex] = true mean voltage for type K batteries.

           [tex]\mu_2[/tex] = true mean voltage for type Q batteries.

So, Null Hypothesis, [tex]H_0[/tex] :  [tex]\mu_1 = \mu_2[/tex] {mean voltage for these two types of

                                                        batteries is same}

Alternate Hypothesis, [tex]H_1[/tex] : [tex]\mu_1 \neq \mu_2[/tex] {mean voltage for these two types of

                                                          batteries is different]

The test statistics we use here will be :

                     [tex]\frac{(X_1bar-X_2bar) - (\mu_1 - \mu_2) }{s_p\sqrt{\frac{1}{n_1}+\frac{1}{n_2} } }[/tex]  follows [tex]t_n__1 + n_2 -2[/tex]

where, [tex]X_1bar[/tex] = 8.54         and     [tex]X_2bar[/tex] = 8.69

                [tex]s_1[/tex]  = 0.225       and         [tex]s_2[/tex]     =  0.725

               [tex]n_1[/tex]   =  37           and         [tex]n_2[/tex]     =  58

               [tex]s_p = \sqrt{\frac{(n_1-1)s_1^{2}+(n_2-1)s_2^{2} }{n_1+n_2-2} } = \sqrt{\frac{(37-1)0.225^{2}+(58-1)0.725^{2} }{37+58-2} }[/tex]  =  0.585               Here, we use t test statistics because we know nothing about population standard deviations.

     Test statistics =  [tex]\frac{(8.54-8.69) - 0 }{0.585\sqrt{\frac{1}{37}+\frac{1}{58} } }[/tex] follows [tex]t_9_3[/tex]

                             = -1.219

At 0.1 or 10% level of significance t table gives a critical value between (-1.671,-1.658) to (1.671,1.658) at 93 degree of freedom. Since our test statistics is more than the critical table value of t as -1.219 > (-1.671,-1.658) so we have insufficient evidence to reject null hypothesis.

Therefore, we conclude that mean voltage for these two types of batteries is same.

Answer:

d. 4.6 years

Step-by-step explanation:

Problems of normally distributed samples can be solved using the z-score formula.

In a set with mean [tex]\mu[/tex] and standard deviation [tex]\sigma[/tex], the zscore of a measure X is given by:

[tex]Z = \frac{X - \mu}{\sigma}[/tex]

The Z-score measures how many standard deviations the measure is from the mean. After finding the Z-score, we look at the z-score table and find the p-value associated with this z-score. This p-value is the probability that the value of the measure is smaller than X, that is, the percentile of X. Subtracting 1 by the pvalue, we get the probability that the value of the measure is greater than X.

In this problem, we have that:

[tex]\mu = 5.8, \sigma = 0.9[/tex]

What warranty should be provided so that the company is replacing at most 10% of their toasters sold?

Only those on the 10th percentile or lower will be replaced.

So the warranty is the value of X when Z has a pvalue of 0.10.

So it is X when [tex]Z = -1.28[/tex]

[tex]Z = \frac{X - \mu}{\sigma}[/tex]

[tex]-1.28 = \frac{X - 5.8}{0.9}[/tex]

[tex]X - 5.8 = -1.28*0.9[/tex]

[tex]X = 4.6[/tex]

So the correct answer is:

d. 4.6 years

Final answer:

To find the warranty length, we need to determine the value that corresponds to the 10th percentile of the normally distributed life span. By solving the equation using the z-score formula, we find that the warranty should be provided for at least 4.6 years.

Explanation:

In order to determine the warranty that should be provided to the toasters, we need to find the value that corresponds to the 10th percentile of the normally distributed life span. To do this, we can use a standard normal distribution table or a calculator. The z-score for the 10th percentile is approximately -1.28. Using the formula z = (x - mean) / standard deviation, we can solve for x to find the warranty length.

-1.28 = (x - 5.8) / 0.9

x - 5.8 = -1.28 × 0.9

x - 5.8 = -1.152

x = 5.8 - 1.152

x = 4.648

Therefore, the warranty should be provided for at least 4.648 years, which is approximately 4.6 years. The correct answer is option d. 4.6 years.

The distance the in which the water will reach before it shatters will be 1.03ft

Data;

Using integration, the force at any depth y is 62.4y lb/ft^3

[tex]200 = \int\limits^d_0 {62.4y} \, 6dy\\ 200 = \int\limits^d_0 {374.4y} \, dy\\ 200 = \int\limits^6_0 {374.4y} \, dy\\ 200 = [374.4/2 y^2]_0^d\\200 = 187.2(d^2 - 0)\\200 = 187.2d^2\\d^2 = 200/187.2\\d = 1.03ft[/tex]

From the calculations above, the distance in which the water will reach before it shatters is 1.03ft

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Answer:

1/2

Step-by-step explanation:

Well if we think logically it is quite simple.

Since there is a 1-in-1 ratio of men and women, this means that there are the same number of men and women.

Now taking a random value such as 6 employees, this means that you will see 3 men and 3 women, now in relation to the total it is 3/6

3/6 = 1/2

Answer:

8

Step-by-step explanation:

Sin 30 = k/16

k = 16 x sin 30

k = 16 x (0.5) = 8

Answer:

  P(t) = 100(3.8^t)

Step-by-step explanation:

You want a function P(t) that describes the exponential population growth of a bacteria culture from 100 cells to 380 in one hour, where t is in hours.

The function can be written in the form ...

  population = (initial population) × (growth factor)^(t/(growth period))

Here, the initial population is 100, and the growth factor in a period of 1 hour is 380/100 = 3.8. Since we want t in hours, this is ...

  population = 100 × 3.8^(t/1)

  P(t) = 100(3.8^t)

The mean of the number of different sweaters worn in a week is 2.76. This is calculated by multiplying each possible outcome (from 1 to 4 different sweaters) by its probability and then adding these up.

The random variable X here is the number of different sweaters you wear in a week. To find the mean (expected value) of a random variable, you need to take each possible outcome, multiply it by its probability, and then add up all these products.

Here are the possibilities:

So, the expected value or mean of X is:

1*(4/1024) + 2*(192/1024) + 3*(432/1024) + 4*(96/1024) + 4*(24/1024) = 2.76

So on an average week, you would expect to wear about 2 to 3 different sweaters.

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Answer: It would take approximately 27 steps to obtain an approximation of the root.

Step-by-step explanation: The bisection method is a numerical procedure to find a root to a equation continuous in an interval [a.b]. It consists in repeatedly halve the interval [a,b], keeping the half for which f(x) changes sign. The repetition will continue until a stopping criteria is reached. To find how many interactions is necessary, we can satisfy the equation:

[tex]\frac{1}{2^{n} }[/tex] · (b - a) ≤ ε, where a and b are the original interval and ε is the stopping criteria.

Substituting the parameters and using log 2 = 0,301, the number of iterations needed is approximately 27.

Answer:

59.92% probability he will get at least 2 hits in the game.

Step-by-step explanation:

For each at bat, there are only two possible outcomes. Either he gets a hit, or he does not. The probability of a getting a hit in each at bat is independent. So we use the binomial probability distribution to solve this question.

Binomial probability distribution

The binomial probability is the probability of exactly x successes on n repeated trials, and X can only have two outcomes.

[tex]P(X = x) = C_{n,x}.p^{x}.(1-p)^{n-x}[/tex]

In which [tex]C_{n,x}[/tex] is the number of different combinations of x objects from a set of n elements, given by the following formula.

[tex]C_{n,x} = \frac{n!}{x!(n-x)!}[/tex]

And p is the probability of X happening.

In this problem we have that:

[tex]p = 0.212[/tex]

In one game, he gets 9 at bats. What is the probability he will get at least 2 hits in the game?

This is [tex]P(X \geq 2)[/tex] when [tex]n = 9[/tex]

He either gets less than two hits in the game, or he gets at least two hits. The sum of the probabilities of these events is decimal 1. So

[tex]P(X < 2) + P(X \geq 2) = 1[/tex]

[tex]P(X \geq 2) = 1 - P(X < 2)[/tex]

In which

[tex]P(X < 2) = P(X = 0) + P(X = 1)[/tex]

[tex]P(X = x) = C_{n,x}.p^{x}.(1-p)^{n-x}[/tex]

[tex]P(X = 0) = C_{9,0}.(0.212)^{0}.(0.788)^{9} = 0.1171[/tex]

[tex]P(X = 1) = C_{9,1}.(0.212)^{1}.(0.788)^{8} = 0.2837[/tex]

[tex]P(X < 2) = P(X = 0) + P(X = 1) = 0.1171 + 0.2837 = 0.4008[/tex]

Finally

[tex]P(X \geq 2) = 1 - P(X < 2) = 1 - 0.4008 = 0.5992[/tex]

59.92% probability he will get at least 2 hits in the game.

Answer:

Option A) Quantitative, because numerical values, found by either measuring or counting, are used to describe the data

Option C) Ratio, because the differences in the data can be meaningfully measured, and the data have a true zero point.

Step-by-step explanation:

We are given the following in the question:

"The average monthly rainfall in inches for a certain city throughout the year"

Qualitative or​ quantitative:

Thus, the given quantitative data is quantitative because rainfall is always measured and the output is expressed in numerical values.

Option A) Quantitative, because numerical values, found by either measuring or counting, are used to describe the data

Level of measurement:

Since,for the given data true zero exist and a negative values make no sense, thus its is ratio.

Option C) Ratio, because the differences in the data can be meaningfully measured, and the data have a true zero point.

The data described is quantitative because it is measured in numerical values. The level of measurement for this data is interval because the differences between data points can be meaningfully measured, but the data lacks a true zero point.

The data about the average monthly rainfall in inches for a certain city throughout the year is a Quantitative Data. This is because the data are numerical values which are obtained through measuring. Quantitative data is based on numbers and can be manipulated using statistical methods. The type of measurement used for this data set is Interval. This is because although the differences in the data (rainfall from one month to the next) can be meaningfully measured, the data do not have a 'true zero' point since there isn't a point where there’s absolutely no rainfall.

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