Given P(A) = 0.37, P(B) 0.38, and P(A or B) 0.27, are events A and B mutually exclusive? Yes, they are mutually exclusive No, they are not mutually exclusive

Answer: 0.0192

Step-by-step explanation:

Given : The mean per capita consumption of milk per year : [tex]\mu=140\text{ liters}[/tex]

Standard deviation : [tex]\sigma=22\text{ liters}[/tex]

Sample size : [tex]n=233[/tex]

Let [tex]\overline{x}[/tex] be the sample mean.

The formula for z-score in a normal distribution :

[tex]z=\dfrac{\overline{x}-\mu}{\dfrac{\sigma}{\sqrt{n}}}[/tex]

For  [tex]\overline{x}=137.01[/tex]

[tex]z=\dfrac{137.01-140}{\dfrac{22}{\sqrt{233}}}\approx-2.07[/tex]

The P-value = [tex]P(\overline{x}<137.01)=P(z<-2.07)= 0.0192262\approx 0.0192[/tex]

Hence, the probability that the sample mean would be less than 137.01 liters is 0.0192 .

The probability that Little Joe, who has no brothers, is an only child is calculated using conditional probability and results in a 1/4 chance.

The question asks us to find the probability that Little Joe, who has no brothers, is an only child. The sample space for the number of children in a family can be defined as {1, 2, 3, 4}, since each of these outcomes has an equal probability of 1/4. We will define event A as Little Joe being an only child, and event B as the family having no additional male children. Since Little Joe is a boy and has no brothers, cases with more than one male child should not be a part of our conditional sample space.

To solve this, we are looking at the conditional probability P(A|B). The probability that Little Joe is an only child given he has no brothers is P(A|B) = P(A and B) / P(B). We can determine that P(A and B) is simply the probability that there is one child and that child is a boy (Little Joe), which is 1/4. Event B can happen in three scenarios: Little Joe is an only child, Little Joe has one sister, or Little Joe has two or three sisters, and each scenario has an equal probability. Therefore, P(B) = 1/4 (only child) + 1/4 (one sister) + 1/4 (two sisters) + 1/4 (three sisters), which adds to 1/4 * 4 = 1.

The answer therefore is P(A|B) = (1/4) / 1 = 1/4. There is a 1/4 chance that Little Joe, who has no brothers, is an only child.

Answer:

The Range Rule of Thumb says that the range is about four times the standard deviation. So, if you need to calculate it, you need to divide range (Maximum - Minimum) with 4, S=[tex]\frac{R}{4}[/tex].

Step-by-step explanation:

R=1490 - 904

S = 586 / 4 = 149.5

If you compare the exact standard desviation (149.5 cm) with the estimated (146.5 cm), it is a difference of 3 cm, is not neccesary round the result.

Hope my answer has been useful.

Answer:

x_bar = 1197 cm^3 , s.d_e = 146.5 cm^3

Outside the 15 cm^3 tolerance. Not a good estimation.

Step-by-step explanation:

Given:

- Lowest value of brain volume L = 904 cm^3

- Highest value of brain volume H = 1490 cm^3

- Exact standard deviation s.d_a = 174.7 cm^3

Find:

Use the range rule of thumb to estimate the standard deviation s and compare the result to the exact standard deviation of 174.7 cm^3 assuming the estimate is accurate if it is within 15 cm^3.

Solution:

- The rule of thumb states that the max and min limits are +/- 2 standard deviations about the mean x_bar. Hence, we will set up two equations.

                           L = x_bar - 2*s.d_e

                           H = x_bar + 2*s.d_e

Where, s.d_e is the estimated standard deviation.

- Solve the two equations simultaneously and you get the following:

                          x_bar = 1197 cm^3 , s.d_e = 146.5 cm^3

- The exact standard deviation is s.d_a = 174.7 cm^3

So, the estimates differs by:

                           s.d_a - s.d_e = 174.7 - 146.5 = 28.2 cm^3

Hence, its outside the tolerance of 15 cm^3. Not a good approximation.

Answer:

B) x = 3

Step-by-step explanation:

The given triangle has three angles:

∠R, ∠S and ∠T

The exterior angle theorem says that

∠S+∠T = ∠R

Putting the values of angles

(57+x) + 25x = 45x

57 + x + 25x = 45x

57+26x = 45x

57 = 45x - 26x

57 = 19x

x = 57/19

x = 3

Hence, the correct answer is:

B) x = 3 ..

Answer:

B

Step-by-step explanation:

X = 3

Answer:

  a) 297°

  b) 4.52 minutes

Step-by-step explanation:

a) Consider the attached figure. The boat's actual path will be the sum of its heading vector BA and that of the current, vector AC. The angle of BA north of west has a sine equal to 5/11. That is, the heading direction measured clockwise from north is ...

  270° + arcsin(5/11) = 297°

__

b) The "speed made good" is the boat's speed multiplied by the cosine of the angle between the boat's heading and the boat's actual path. That same value can be computed as the remaining leg of the right triangle with hypotenuse 11 and leg 5.

  boat speed = √(11² -5²) = √96 ≈ 9.7980 . . . . miles per hour

Then the travel time will be ...

  time = distance/speed

  (3900 ft)×(1 mi)/(5280 ft)×(60 min)/(1 h)/(9.7980 mi/h) ≈ 4.523 min

Answer:

y=4 sin(4x)

Step-by-step explanation:

So you are given y(0)=0.  This means when x=0, y=0.

So plug this in:

0=c1 cos(4*0)+c2 sin(4*0)

0=c1 cos(0)   +c2 sin(0)

0=c1 (1)          +c2 (0)

0=c1               +0

0=c1

So our solution looks like this after applying the first boundary condition:

y=c2 sin(4x).

Now we also have y(pi/8)=4.  This means when x=pi/8, y=4.

So plug this in:

4=c2 sin(4*pi/8)

4=c2 sin(pi/2)

4=c2 (1)

4=c2

So the solution with the given conditions applies is y=4 sin(4x) .

Testing:

y'=16 cos(4x)

y''=-64 sin(4x).

y''+16y=0

-64 sin(4x)+16(4 sin(4x))

-64 sin(4x)+64 sin(4x)

0

So the solution still works.

The solution of the differential equation y'' + 16 y = 0 is,

y = 4 sin4x

Here,

The second-order differential equation is,  y'' + 16y = 0.

And, y = c₁ cos 4x + c₂ sin 4x  is a two-parameter family of solutions of the second-order DE y'' + 16y = 0.

We have to find the solution of the differential equation that satisfies the given side conditions,   y(0) = 0, y(π/8) = 4.

What is Differential equation?

A differential equation is a mathematical equation that relates some function with its derivatives.

Now,

y = c₁ cos 4x + c₂ sin 4x is a two-parameter family of solutions of the second-order DE y'' + 16y = 0.

Apply given conditions y(0) = 0,   y(π/8) = 4 on y = c₁ cos 4x + c₂ sin 4x.

We have given y(0) = 0,

This means x = 0, y = 0

So put this in  y = c₁ cos 4x + c₂ sin 4x.

We get,

0 = c₁ cos 4*0 + c₂ sin 4*0

0 = c₁

c₁ = 0

Hence equation become,

y = c₂ sin4x

And, y(π/8) = 4 , this means that x = π/8 , y = 4

So put in equation y = c₂ sin4x we get,

4 = c₂ sinπ/2

c₂ = 4

Hence, the solution become after putting the value of c₁ = 0 and c₂ = 4,

y = c₁ cos 4x + c₂ sin 4x

y= 4 sin4x

So, The solution of the differential equation y'' + 16 y = 0 is,

y = 4 sin4x

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Answer:

1/16

Step-by-step explanation:

Lets say you are trying to get the cherry when you are spinning. That means that in each slot there is a 1/4 chance of getting the cherry because out of 4 choices only one is the cherry. That is only for one slot and there are 3 slots. That means you take the probability for each slot which is 1/4 and multiply them together. Then you get 1/4*1/4*1/4 since there are 3 slots which is 1/64. However that is only for the cherry and there are 4 different items that you could get. This means there is 1/64 chance for each of the 4 items which is 1/64+1/64+1/64+1/64 which is 4*1/64 which is 1/16.

The probability of winning the slot game is calculated by multiplying the probabilities of each independent event. In this case, the probability of the same item appearing in all three slots is 1 * 1/4 * 1/4, which results in a winning probability of 1/16 or 0.0625.

The subject of this question is the probability of winning in the context of a slot machine game. In this scenario, the slot machine has four different items (cherry, lemon, star, bar) and each item is equally likely to appear on a spin. The player wins if all three slots display the same item.

Firstly, for the first slot, any one of the four items could appear, so the odds are simply 1 (it is certain an item will appear). For the first item to then appear in the second and third slots (i.e., for all three slots to show the same item), with each slot being an independent event, the probability is 1/4 for each subsequent slot.

Therefore, the probability of winning is given by the product of probabilities for each independent event, i.e., 1 * 1/4 * 1/4 = 1/16. Hence, the player's probable chance of winning in a single spin is 1 in 16 or 0.0625 in decimal form.

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Step-by-step explanation:

a). Let [tex]x^{2}+y^{2}=4[/tex]

     [tex]y^{2}=4-x^{2}[/tex]

Now since [tex]y^{2}[/tex] is a square of an integer, its value is [tex]\geq[/tex] 0.

Therefore, [tex]4-x^{2}[/tex] ≥ 0, since x is an integer

where [tex]4-x^{2}[/tex] = 1,2,3,...

and x = 1

But as x = [tex]\sqrt{2}, \sqrt{3}[/tex],... cannot be integer

∴ [tex]y^{2}=4-x^{2}[/tex]

   [tex]y^{2}=4-1[/tex]

   [tex]y = \sqrt{3}[/tex]

              = 1.732      which is not an integer

Thus, any positive integer cannot be written as the sum of the squares of the two integers.

b). Let n be an integer

∴ [tex]3(n^{2}+2n+3)-2n^{2}[/tex]

On solving we get,

 [tex]3n^{2}+6n+9-2n^{2}[/tex]

 [tex]n^{2}+6n+9[/tex]

 [tex]n^{2}+3n+3n+9[/tex]

 [tex]n(n+3)+3(n+3)[/tex]

  [tex](n+3)(n+3)[/tex]

  [tex](n+3)^{2}[/tex]

which is a perfect square

Hence proved.

Answer:

Step-by-step explanation:

a). Let

Now since  is a square of an integer, its value is  0.

Therefore,  ≥ 0, since x is an integer

where  = 1,2,3,...

and x = 1

But as x = ,... cannot be integer

∴

             = 1.732      which is not an integer

Thus, any positive integer cannot be written as the sum of the squares of the two integers.

b). Let n be an integer

∴

On solving we get,

which is a perfect square

Hence proved.

The numbers on a six sided die are: 1, 2, 3, 4 ,5 ,6

There are 4 numbers that are either equal to 3 or greater than 3: 3, 4, 5 ,6

The probability of getting one is 4 chances out of 6 numbers, which is written as 4/6.

4/6 can be reduced to 2/3 ( simplified fraction)

Final answer:

The probability of rolling a number greater than or equal to 3 on a six-sided die is 2/3 or 0.6667 when rounded to four decimal places.

Explanation:

To find the probability of rolling a number greater than or equal to 3 on a standard six-sided die, we count the favorable outcomes and then divide this number by the total number of possible outcomes. The sample space, S, of a six-sided die is {1, 2, 3, 4, 5, 6}.

Numbers greater than or equal to 3 are 3, 4, 5, and 6. So, there are 4 favorable outcomes. The total number of possible outcomes is 6 (since there are 6 sides on the die).

The probability is thus the number of favorable outcomes (4) divided by the total number of possible outcomes (6), which simplifies to 2/3 or approximately 0.6667 when rounded to four decimal places.

Answer:

99.85%

Step-by-step explanation:

Most of today's student calculators have probability distribution functions built in.  Here we are to find the area under the standard normal curve between 58 mph and 76 mph, if the mean speed is 67 mph and the std. dev. is 3 mph.

Here's what I'd type into my calculator:

normalcdf(58, 76, 67, 3)

The result obtained in this manner was 0.9985.  

This states that 99.85% of the vehicles clocked were traveling at speeds between 58 mph and 76 mph.

Answer: 99.9%

Step-by-step explanation:In a normal distribution (bell-shaped distribution), the percent that is between the mean and the standard deviations are:

between the mean and mean + standard deviation the percentage is = 34.1%

between the mean + standard deviation and mean + 2 times the standard deviation is = 13.6%

between the mean + 2 times the standard deviation and the mean + 3 times the standard deviation is: 2.14%

And is the same if we subtract the standard deviation.

So in the range from 58 to 67, we can find 3 standard deviations, and in the range from 67 to 76, we also can find 3 standard deviations:

58 + 3 + 3 + 3 = 67

67 + 3 + 3 + 3 = 76

So the total probability is equal to the addition of all those ranges:

2.14% + 13.6% + 34.1% + 34.1% + 13.6% + 2.14% = 99.9%

So 99.9% of the cars have velocities in the range between 58 miles per hour and 76 miles per hour

Not sure why, but I wasn't able to post my solution as text, so I've written it elsewhere and am posting screenshots of it here.

In the fifth attachment, the first solution is shown above the second one.

Answer:

$15400

Step-by-step explanation:

Principle amount, P = $14000

Time, T = 1 year

Rate of interest, R = 10%

We know that maturity amount,

[tex]A = P\left (1+\frac{R}{100} \right )^{n}[/tex]

where n is number of years

[tex]A = P\left (1+\frac{R}{100} \right )^{n}[/tex]

[tex]A = 14000\left (1+\frac{10}{100}\right )^{1}[/tex]

[tex]A = 14000\left (1+\frac{1}{10}\right )[/tex]

[tex]A = 14000\left (\frac{11}{10}\right )[/tex]

[tex]A = 15400[/tex]

The maturity amount is $15400

Kayla should take out a loan of $12,727.27 to have $14,000 after accounting for a 10% discount rate over one year.

Kayla needs to determine the amount she must borrow so that after accounting for the interest rate of 10%, she will have proceeds of $14,000 to invest in new equipment for her shop. The equation to calculate this is the present value (amount borrowed) equals the future value (amount after interest) divided by one plus the interest rate to the power of the period, which in this case is one year.

Using this formula:

Amount Borrowed = $14,000 / (1 + 0.10)1

Amount Borrowed = $14,000 / 1.10

Amount Borrowed = $12,727.27

Therefore, Kayla should ask for a loan of $12,727.27 to receive $14,000 after one year.

Answer: Dividend paid = $750,000

Explanation:

In order to compute the dividends paid by the firm in 2014 , we'll use the following formula :

Retained earning at end = Retained earning at beginning +Net income -Dividend paid

$5,200,000 = $4,900,000 +  $1,050,000 - Dividend paid

Dividend paid = $4,900,000 +  $1,050,000 - $5,200,000

Dividend paid = $750,000

Answer:

A∩(A∪B)=A

Step-by-step explanation:

Let's find the answer as follows:

Let's consider that 'A' includes all numbers between X1 and X2 (X1≤A≥X2), and let's consider that 'B' includes all numbers between Y1 and Y2 (Y1≤B≥Y2). Now:

A∪B includes all numbers between X1 and X2, as well as the numbers between Y1 and Y2, so:

A∪B= (X1≤A≥X2)∪(Y1≤B≥Y2)

Now, A∩C involves only the numbers that are included in both, A and C. This means that 'x' belongs to A∩C only if 'x' is included in 'A' and also in 'C'.

With this in mind, A∩(A∪B) includes all numbers that belong to 'A' and 'A∪B', which in other words means, all numbers that belong to (X1≤A≥X2) and also (X1≤A≥X2)∪(Y1≤B≥Y2), which are:

A∩(A∪B)=(X1≤A≥X2) which gives:

A∩(A∪B)=A

Answer:70

Step-by-step explanation:

Given

total of  7 friends need to be divided in two groups with 3 member each and  1 leader

leader can be chosen out of 7 person in [tex]^7C_1[/tex] ways

And 3 person out of remaining 6 persons in [tex]^6C_3[/tex] ways

thus a total of [tex] ^7C_1\times ^6C_3[/tex]  ways is possible

If order is not matter then

[tex]\frac{140}{2} [/tex] ways are possible

Answer:  The lines L1 and L2 are parallel.

Step-by-step explanation:  We are given to determine whether the following lines L1 and L2 passing through the pair of points are parallel, perpendicular or neither :

L1 : (–5, –5), (4, 6),

L2 : (–9, 8), (–18, –3).

We know that a pair of lines are

(i) PARALLEL if the slopes of both the lines are equal.

(II) PERPENDICULAR if the product of the slopes of the lines is -1.

The SLOPE of a straight line passing through the points (a, b) and (c, d) is given by

[tex]m=\dfrac{d-b}{c-a}.[/tex]

So, the slope of line L1 is

[tex]m_1=\dfrac{6-(-5)}{4-(-5)}=\dfrac{6+5}{4+5}=\dfrac{11}{9}[/tex]

and

the slope of line L2 is

[tex]m_2=\dfrac{-3-8}{-18-(-9)}=\dfrac{-11}{-9}=\dfrac{11}{9}.[/tex]

Therefore, we get

[tex]m_1=m_2\\\\\Rightarrow \textup{Slope of line L1}=\textup{Slope of line L2}.[/tex]

Hence, the lines L1 and L2 are parallel.

Answer:

Parallel

Step-by-step explanation:

Answer:

9.6 is one such number

Step-by-step explanation:

There are infinitely many.

If we are looking at decimals which I think that might be easier here, you are looking for ones that terminate or repeat (same pattern over and over).

So we are looking for a number between 9.5 and 9.7 that is a decimal that either terminates or repeats.

That number could be 9.6.  That one is probably the easier one to see.

There are many more like these possibilities:

1)  9.6

2) 9.5001

3) 9.51

4) 9.54

5) 9.669

Answer:

9.57

Step-by-step explanation:

Because 9.56763865854637984..... (rounded 9.57) It is irrational because it has no pattern

A counter example would be the number 2.

2 is a prime number, because it only has two factors ( itself and 1)

Yet 2 is also an even number, because it can be exactly divided by two.

So the number 2 proves that not every prime number is odd.

Answer:

Resistance

Conductance

Step-by-step explanation:

In any graph the slope represents the ratio of y axis to x axis.

So, in the first case the voltage (V) is on the y axis and current (I) on the x axis. Here the slope is V/I = R. Therefore, slope represents resistance.

In the second case current (I) is on the y axis and voltage (V) is on the x axis. Here the slope formed will be I/V = 1/R = G. Therefore, slope represents conductance.

Final answer:

In physics, particularly when discussing Ohm's Law, the slope of a V versus I plot represents the resistance of the resistor, and conversely, the slope of an I versus V plot signifies the conductance. These relationships illustrate the fundamental interplay between current, voltage, and resistance in electrical circuits.

Explanation:

If a resistor follows Ohm’s Law, when plotting V (voltage) as a function of I (current), with V on the y-axis, the slope of the graph represents the resistance (R) of the resistor. This is directly derived from Ohm's Law, V = IR, which shows that voltage (V) is equal to the current (I) multiplied by the resistance (R). The slope in this context is R, because the graph shows how much voltage is needed to achieve a certain current flow, exhibiting a linear relationship. This slope is a constant value for ohmic devices, showcasing that the resistance does not change with varying voltage or current in these cases.

Conversely, when plotting I as a function of V, with I on the y-axis, the slope represents the conductance (the reciprocal of resistance). From the equation I = V/R, we could also interpret that the slope in a graph of I versus V would represent 1/R, indicating how current changes in response to changes in voltage. This also demonstrates a linear relationship for ohmic devices, where the conductance remains constant.

In essence, these plots offer a visual representation of Ohm's Law in action, and the slope on these graphs provides valuable information about the resistor’s resistance or conductance, highlighting the fundamental relationship between voltage, current, and resistance in an electrical circuit.

Answer: 50% is the probability

Step-by-step explanation:

There are to people showing up at to different times now the probability is out of a 100%.

So 100 divided by 2 will equal to a 50

Answer:

The payment would be $ 897.32.

Step-by-step explanation:

Since, the monthly payment of a loan is,

[tex]P=\frac{PV(r)}{1-(1+r)^{-n}}[/tex]

Where, PV is the present value of the loan,

r is the monthly rate,

n is the total number of months,

Here,

PV = $170,000,

Annual rate = 4 % = 0.04

So, the monthly rate, r = [tex]\frac{0.04}{12}=\frac{1}{300}[/tex]  ( 1 year = 12 months )

Time in years = 25,

So, the number of months, n = 12 × 25 = 300

Hence, the monthly payment of the debt would be,

[tex]P=\frac{170000(\frac{1}{300})}{1-(1+\frac{1}{300})^{-300}}[/tex]

[tex]=897.322628506[/tex]

[tex]\approx \$ 897.32[/tex]

Answer:

Option A. (19, 4,370)

Step-by-step explanation:

we know that

A relationship between two variables, x, and y, represent a proportional variation if it can be expressed in the form [tex]y/x=k[/tex] or [tex]y=kx[/tex]

In a proportional relationship the constant of proportionality k is equal to the slope m of the line and the line passes through the origin

In this problem

The relationship between the number of calories that Chad burns (y-axis) with respect to the number of times he works out (x-axis) represent a proportional variation

so

[tex]y=kx[/tex]

we have that

[tex]k=230[/tex] ----> the constant is equal to the slope

substitute

[tex]y=230x[/tex] ----> linear equation that represent the situation

If a point lie on the graph, the the point must satisfy the linear equation

Verify each case

case A) (19,4,370)

For x=19, y=4,370

substitute in the equation

[tex]4,370=230(19)[/tex]

[tex]4,370=4,370[/tex] ----> is true

therefore

The point lie on the graph

case B) (18,3,960)

For x=18, y=3,960

substitute in the equation

[tex]3,960=230(18)[/tex]

[tex]3,960=4,140[/tex] ----> is not true

therefore

The point does not lie on the graph

case C) (18,4,730)

For x=18, y=4,730

substitute in the equation

[tex]4,730=230(18)[/tex]

[tex]4,730=4,140[/tex] ----> is not true

therefore

The point does not lie on the graph

case D) (19,3,960)

For x=19, y=3,960

substitute in the equation

[tex]3,960=230(19)[/tex]

[tex]3,960=4,370[/tex] ----> is not true

therefore

The point does not lie on the graph

Answer:

It would be A

Step-by-step explanation:

its not the same for everyone but the number is (19, 4,370)

Answer:

7.16.

Step-by-step explanation:

The variance is ∑ (x - m)^2 / N   and the standard deviation is the square root of this.

m is the mean of the data . Here it is  82.14.

Construct a table:

x    (x - m)     (x - m)^2

73    -9.14       83.54

76     -6.14      37.70

79      -3.14        9.86

82      -0.14        0.02

84       1.86        3.46  

84        1.86        3.46

97       14.86    220.82

Total:             358.86

Variance =  358.86 / 7 =  51.27

Standard deviation = √51.27 = 7.16.

Answer with Step-by-step explanation:

A 3 foot wide brick sidewalk is laid around a rectangular swimming pool.

The outside edge of the sidewalk measures 30 feet by 40 feet.

Length of swimming pool=(30-3-3) feet

                                          =24 feet

Breath of swimming pool=(40-3-3) feet

                                         = 34 feet

Perimeter of swimming pool=2(24+34) feet

(since perimeter of rectangle=2(l+b) where l is the length and b is the breath of the rectangle)

Perimeter of swimming pool=116 feet

Hence, Perimeter of swimming pool is:

116 feet

To find the perimeter of the swimming pool, subtract twice the width of the 3 feet sidewalk from the total length and width of the area, which is 40 and 30 feet respectively. This gives you the length and width of the pool. Then, add these dimensions together and multiply by 2 to find the perimeter, which is 116 feet.

The subject of your question involves the concept of perimeter in math. To find the perimeter of the swimming pool itself, we need to subtract the width of the sidewalk from the total length and width measurements. Since the sidewalk is 3 feet wide and it is built around the pool, we need to account for this on both sides of the length and the width.

First, you subtract twice the width of the sidewalk from both the length and the width of the total area, which includes the pool and the sidewalk. So, the length of the pool would be 40 feet (total length) - 2*3 feet (two widths of the sidewalk) = 40 feet - 6 feet = 34 feet.

Similarly, the width of the pool would be 30 feet (total width) - 2*3 feet (two widths of the sidewalk) = 30 feet - 6 feet = 24 feet.

Then, you add the length and the width together and multiply by 2 to find the perimeter. The perimeter of the swimming pool would therefore be 2 * (34 feet + 24 feet) = 2 * 58 feet = 116 feet.

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Answer:  The probability that both televisions work : 0.5329

The  probability at least one of the two televisions does not​ work : 0.4671

Step-by-step explanation:

Given : The total number of television : 11

The number of defective television : 3

The probability that the television is defective : [tex]p=\dfrac{3}{11}\approx0.27[/tex]

Binomial distribution formula :-

[tex]P(x)=^nC_xp^x(1-p)^{n-x}[/tex], where P(X) is the probability of getting success in x trials, p is the probability of success and n is the total trials.

If two televisions are randomly​ selected, then the probability that both televisions work:

[tex]P(0)=^2C_0(0.27)^0(1-0.27)^{2-0}=(1)(0.73)^2=0.5329[/tex]

The probability at least one of the two televisions does not​ work :

[tex]P(X\geq1)=1-P(0)=1-0.5329=0.4671[/tex]

Answer: 0.9762

Step-by-step explanation:

Let A be the event that days are cloudy and B be the event that days are rainy for January month .

Given : The probability that the days are cloudy = [tex]P(A)=0.42[/tex]

The probability that the days are cloudy and rainy = [tex]P(A\cap B)=0.41[/tex]

Now, the conditional probability that a randomly selected day in January will be rainy if it is cloudy is given by :-

[tex]P(B|A)=\dfrac{P(B\cap A)}{P(A)}\\\\\Rightarrow\ P(B|A)=\dfrac{0.41}{0.42}=0.97619047619\approx0.9762[/tex]

Hence, the probability that a randomly selected day in January will be rainy if it is cloudy  = 0.9762

the probability that a randomly selected day in January will be rainy if it is cloudy is approximately 97.62%.

The question asks us to find the probability that a day will be rainy given that it is cloudy. From the information provided, we know that in this city, 42% of the days in January are cloudy, and 41% are both cloudy and rainy. To find the probability that it is rainy given that it is cloudy, we use the concept of conditional probability.

The formula for conditional probability is P(A|B) = P(A u2229 B) / P(B), where P(A|B) is the probability of A given B, P(A \\u2229 B) is the probability of both A and B occurring, and P(B) is the probability of B occurring.

Let A be the event that it is rainy and B be the event that it is cloudy. Therefore, P(A|B) = P(A u2229 B) / P(B) = 0.41 / 0.42 = 0.9762 or 97.62%.

Hence, the probability that a randomly selected day in January will be rainy if it is cloudy is approximately 97.62%.

Answer:

D.  (3, -1).

Step-by-step explanation:

The vertex for ( x - a)^2 + b  is (a, b).

Comparing (x - 3)^2 - 1 with this we get:

a = 3 and b = -1.

Answer: Last Option

(3, -1)

Step-by-step explanation:

We have the following quadratic function:

[tex]f(x) =(x-3)^2 - 1[/tex]

By definition for a quadratic function in the form:

[tex]f (x) = a (x-h) ^ 2 + k[/tex]

the vertex of the function is always the point (h, k)

Note that for this case the values of h, a, and k are:

[tex]a = 1\\h = 3\\k = -1[/tex]

Therefore the vertex of the function [tex]f(x) =(x-3)^2 - 1[/tex] is the point

(3, -1)

Answer:

Step-by-step explanation:

Given that [tex]r = 0.952[/tex]

We have coefficient of determination

[tex]r^2 =0.952^2\\=0.906304[/tex]

=90.63%

This implies that nearly 91% of variation in change in dependent variable is due to the change in x.

The coefficient of determination is the square of the correlation (r) between predicted y scores and actual y scores; thus, it ranges from 0 to 1.

An R2 of 0 means that the dependent variable cannot be predicted from the independent variable.

An R2 of 1 means the dependent variable can be predicted without error from the independent variable.

Answer:

$500 000

Step-by-step explanation:

 Let r = revenue

and c = costs

and n = number of units. Then

r = 50n and

c = 40n + 100 000

At the break-even point,

r = c

50n = 40n + 100 000

10n = 100 000

    n = 10 000

The break-even point is reached at 10 000 units. At that point,

r = 50n =50 × 10 000 = 500 000

A sales revenue of $500 000 is needed to break even.

Belle Corp. needs to achieve a sales revenue of $500,000 to cover both its variable and fixed costs and thus reach the break-even point.

To calculate the breakeven point of Belle Corp., we need to understand that breakeven is the point where total costs (fixed and variable) equal total sales revenue. The formula for calculating the breakeven point in units is Total Fixed Costs / Contribution Margin per Unit. The contribution margin per unit is the Selling Price per Unit minus the Variable Cost per Unit.

For Belle Corp.,

To calculate sales revenue necessary to breakeven, we multiply the breakeven point in units by the selling price per unit. Therefore, Sales revenue needed to break-even = Breakeven units * Selling Price per unit = 10,000 units × $50 = $500,000.

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