The water level in Rafael's fish tank must be at least 11 in. For his fish to be healthy. He starts with a water level of 11 1/2 in. Then the water level decreases 7/8 in. Rafael adds water, but not enough for the fish to be healthy. How many inches of water could Rafael have added ?? Show your work

A one-to-one function f: [1,3] →[2,5] that is not onto can be constructed as follows:

f(x) = 3x - 5, where x is in the interval [1,3].

To show that f is a one-to-one function, we need to show that for any distinct elements x and y in [1,3], f(x) is not equal to f(y) i.e., f(x) ≠ f(y).

Assume that f(x) = f(y), then 3x - 5 = 3y - 5, which implies that x = y. This contradicts our assumption that x and y are distinct. Hence, f is one-to-one.

To show that f is not onto, we need to find an element in the co-domain [2,5] that is not mapped to by f.

Let's consider the element 2.5 in [2,5]. There is no x in [1,3] such that f(x) = 2.5. To prove this, assume that there exists some x in [1,3] such that f(x) = 2.5. Then, we have 3x - 5 = 2.5, which implies that x = 2.5. But 2.5 is not in [1,3]. This contradicts our assumption that such an x exists. Hence, f is not onto.

For more questions like Function click the link below:

https://brainly.com/question/16008229

#SPJ11

The world population is forecast to peak at about 9.20 billion in the year 2058.

(a) To find when the total world population is forecast to peak, we need to find the maximum value of the function P(t) = -0.0702t^2 + 0.81t + 6.04, where t is the time in decades and 0 ≤ t ≤ 10.

Step 1: Differentiate P(t) with respect to t to get the first derivative P'(t).
P'(t) = -0.1404t + 0.81

Step 2: Set P'(t) to zero and solve for t to find the critical points.
0 = -0.1404t + 0.81
t = 0.81 / 0.1404 ≈ 5.8

Step 3: Since the parabola is facing downwards (due to the negative coefficient in front of the t^2 term), we know that the critical point found is a maximum. Thus, the world population is forecast to peak at t ≈ 5.8.

To find the corresponding year:
2000 + 5.8 * 10 ≈ 2000 + 58 ≈ 2058 (rounded down to the nearest year)

Step 4: To find the peak population, plug the value of t back into the original function P(t).
P(5.8) ≈ -0.0702 * 5.8^2 + 0.81 * 5.8 + 6.04 ≈ 9.20 (rounded to two decimal places)

(b) The world population is forecast to peak at about 9.20 billion in the year 2058.

For more about population:

https://brainly.com/question/27779235

#SPJ11

The x-coordinate of the point that divides the directed line segment from j to k into a ratio of 2:5 is 6.To find the x-coordinate of the point that divides the directed line segment from j to k into a ratio of 2:5, we need to use the concept of section formula. Section formula is a formula used to find the coordinates of the point that divides a line segment into a given ratio.

Let the coordinates of point j be (x1, y1) and the coordinates of point k be (x2, y2). Let the coordinates of the point that divides the line segment in a ratio of 2:5 be (x, y).

According to the section formula, the x-coordinate of the point (x, y) is given by:

x = [(5 * x1) + (2 * x2)] / (5 + 2)

We are given that the line segment is divided into a ratio of 2:5, which means that the length of the segment between point j and the point (x, y) is twice the length of the segment between the point (x, y) and point k.

Using the distance formula, we can find the length of the segment between points j and k:

d(j,k) = sqrt[(x2 - x1)^2 + (y2 - y1)^2]

Let the length of the segment between point j and the point (x, y) be d1 and the length of the segment between the point (x, y) and point k be d2. Since the segment is divided in a ratio of 2:5, we can write:

d1 / d2 = 2/5

Simplifying this equation, we get:

d1 = (2 / 7) * d(j,k)
d2 = (5 / 7) * d(j,k)

Now, we can use the x-coordinate formula to find the x-coordinate of the point (x, y):

x = [(5 * x1) + (2 * x2)] / (5 + 2)
x = (5 * 2) + (2 * 8) / 7
x = 6

Therefore, the x-coordinate of the point that divides the directed line segment from j to k into a ratio of 2:5 is 6.

Learn more about the Section formula here: brainly.com/question/30242630

#SPJ11

The polar form of the complex number is 28√3 ∠70.53∘.

The polar form of a complex number represents the number in terms of its magnitude and angle. To find the polar form of the given complex number, we first need to simplify the expression inside the parentheses.

Using the trigonometric identity cos(θ) + i sin(θ) = ∠θ, we can simplify 3∠60∘ to (3/2 + j(3√3)/2) and 2j to 2∠90∘.

Then, we can distribute the 14∠30∘ to each term and simplify the result.

(14∠30∘)(6 - j(8/3 + (3√3)/3 j)) + (14∠30∘)(2∠90∘)

= (84∠60∘ - j(112/3∠150∘ + (42√3)/3∠210∘)) + 28∠120∘

= 28(√3 + j)

The magnitude of the complex number is 28√3, and the angle is 60∘ + tan⁻¹(1/√3) ≈ 70.53∘.

For more about polar form:

https://brainly.com/question/11741181

#SPJ11

Answer:

2π(1.4)2 + 2.8π(3.7)

Step-by-step explanation:

A cylinder's surface is a rectangle and 2 circles

the circumference is 2.8pi, which is also the side length of the rectangle, so the surface area of the rectangle is 2.8pi*3.7

The area of the circle is simply pi*(1.4)^2, and there are 2 circles.

So the answer is 2π(1.4)2 + 2.8π(3.7)

There are three vectors in this set: V1, V2, and V3. The span contains an infinite number of vectors in a 2-dimensional subspace.

Given vectors:
V1 = [1, 0, -1]
V2 = [4, 1, 5]
V3 = [12, 3, 15]
W = [5, 1, 4]

a. W is not in the set {V1, V2, V3} because it is not equal to any of the vectors in the set. There are three vectors in this set: V1, V2, and V3.

b. To determine the number of vectors in the Span{V1, V2, V3}, we need to check for linear independence. We can do this by setting up a matrix and performing Gaussian elimination:

[1, 4, 12]
[0, 1,  3]
[-1, 5, 15]

After Gaussian elimination, we get:

[1, 0, -1]
[0, 1,  3]
[0, 0,  0]

There are two nonzero rows, which means two of the vectors are linearly independent. Thus, the span contains an infinite number of vectors in a 2-dimensional subspace.

c. To determine if W is in the subspace spanned by {V1, V2, V3}, we need to check if W can be expressed as a linear combination of these vectors. Let's set up the equation:

W = aV1 + bV2 + cV3

[5, 1, 4] = a[1, 0, -1] + b[4, 1, 5] + c[12, 3, 15]

Solving for a, b, and c:

a + 4b + 12c = 5
b + 3c = 1
-a + 5b + 15c = 4

By solving this system of linear equations, we find that there are no solutions for a, b, and c. Therefore, W is not in the subspace spanned by {V1, V2, V3}.

For more about vectors:

https://brainly.com/question/31551501

#SPJ11

a. the monthly sales data for a popular ice cream parlor located on the beach.

b. the monthly electricity consumption data for a residential area.

a. An example of a time series with trend, cycles, and random fluctuations but not seasonal components would be the monthly sales data for a popular ice cream parlor located on the beach.

The trend would be an overall increase in sales as the summer months approach. Cycles would be the weekly fluctuations in sales, with higher sales on weekends and lower sales during weekdays. Random fluctuations would be the unpredictable changes in sales due to various factors such as weather, events, or competition.

b. An example of a time series with seasonal components and random fluctuations, but not trend or cycles, would be the monthly electricity consumption data for a residential area.

The seasonal component would be the regular patterns of higher electricity consumption during the summer months and lower consumption during the winter months. Random fluctuations would be the unpredictable changes in consumption due to various factors such as changes in weather, individual behavior, or appliance use.

There would be no trend as the overall consumption level would remain relatively stable over time, and no cycles as there would be no regular weekly or monthly patterns of consumption.

To learn more about time series, refer below:

https://brainly.com/question/15552217

#SPJ11

We can solve this problem by converting the integral to polar coordinates.

In polar coordinates, the region R is described by:

1 ≤ r ≤ 3

0 ≤ θ ≤ π/2

The integral becomes:

∫∫sin (x^2+y^2) dA = ∫∫r sin (r^2) dr dθ

Integrating with respect to r first, we get:

∫∫r sin (r^2) dr dθ = ∫[0,π/2] ∫[1,3] r sin (r^2) dr dθ

Evaluating the inner integral with the substitution u = r^2, du = 2r dr, we get:

∫[1,3] r sin (r^2) dr = 1/2 ∫[1,9] sin (u) du = -1/2 cos (9) + 1/2 cos (1)

Substituting this result into the original integral and evaluating the outer integral, we get:

The value of the double integral is approximately -0.523.

We want to evaluate the double integral:

∫∫sin(x^2+y^2) dA

over the region R, which is the first quadrant region between the circles with center at the origin and radii 1 and 3.

To evaluate this integral, we use polar coordinates, since the region is naturally described in terms of polar coordinates. In polar coordinates, the region R is given by 1 ≤ r ≤ 3 and 0 ≤ θ ≤ π/2.

Thus, we have:

∫∫sin(x^2+y^2) dA = ∫θ=0^π/2 ∫r=1^3 sin(r^2) r dr dθ

Integrating with respect to r first, we get:

∫θ=0^π/2 ∫r=1^3 sin(r^2) r dr dθ = ∫θ=0^π/2 (-1/2) [cos(9)-cos(1)] dθ

= (-1/2) [cos(9)-cos(1)] (π/2)

≈ -0.523

Your question is incomplete but most probably your full question was  

Evaluate the double integral ∫∫sin (x^2+y^2) where R is the region in the first quadrant between the circles with center the origin and radii 1 and 3.

Learn more about integral

brainly.com/question/18125359

#SPJ11

To find the P-value, follow these steps. Use the z-table from the book to find the P-value associated with z = -2.14. The P-value is approximately 0.032.To find the P-value, follow the steps.

1. Identify the given information: α = 0.05, μ = 1620, n = 35, X bar = 1590, and σ = 82.
2. Calculate the test statistic (z-score) using the formula: z = (X bar - μ) / (σ / √n).
3. Plug in the values: z = (1590 - 1620) / (82 / √35) = -2.14.
4. Use the z-table from the book to find the P-value associated with z = -2.14.
5. The P-value is approximately 0.032.

So, the P-value is approximately 0.032.

Learn more about P-value at: brainly.com/question/30182084

#SPJ11

The system of linear inequalities is solved

a) y < 7 - x , ( 5 , 2 ) is not a solution to the inequality

b) y ≥ x , ( -3 , -6 ) is a solution

c) 3y < 5 + ( 1/2 )x , ( 0 , 2/3 ) is a solution

Given data ,

Let the inequality equation be represented as A

Now , the value of A is

a)

1 - y > x - 6

Subtracting 1 on both sides , we get

-y > x - 7

Multiply by -1 on both sides , we get

y < 7 - x

Hence , ( 5 , 2 ) is not a solution to the inequality

b)

-y ≤ 2x

Multiply by -1 on both sides , we get

y ≥ -2x

Hence , ( -3 , -6 ) is a solution

c)

3 - ( 1/2 )x + 3y < 8

Subtracting 3 on both sides , we get

- ( 1/2 )x + 3y < 5

Adding ( 1/2)x on both sides , we get

3y < 5 + ( 1/2 )x

Hence , ( 0 , 2/3 ) is a solution

To learn more about inequality equations click :

https://brainly.com/question/11897796

#SPJ4

A basis (a) for U is {(1/2, 1, 0, 0, 0), (0, 0, 1, 0, 1), (0, 0, 0, 1, 0)}, (b) the subspace spanned by the standard basis vectors e₁ = (1, 0, 0, 0, 0), e₂ = (0, 1, 0, 0, 0), and e₄ = (0, 0, 0, 1, 0).

(a) To find a basis of U, we need to find linearly independent vectors that span U. Let's rewrite the condition for U as follows: x₁ = 1/2 x₂ and x₅ = x₃. Then, we can write any vector in U as (1/2 x₂, x₂, x₃, x₄, x₃) = x₂(1/2, 1, 0, 0, 0) + x₃(0, 0, 1, 0, 1) + x₄(0, 0, 0, 1, 0). Thus, a basis for U is {(1/2, 1, 0, 0, 0), (0, 0, 1, 0, 1), (0, 0, 0, 1, 0)}.

(b) To find a subspace W of R⁵ such that R⁵ = U ⊕ W, we need to find a subspace W such that every vector in R⁵ can be written as a sum of a vector in U and a vector in W, and the intersection of U and W is the zero vector.

We can let W be the subspace spanned by the standard basis vectors e₁ = (1, 0, 0, 0, 0), e₂ = (0, 1, 0, 0, 0), and e₄ = (0, 0, 0, 1, 0). It is clear that every vector in R⁵ can be written as a sum of a vector in U and a vector in W, since U and W together span R⁵.

Moreover, the intersection of U and W is {0}, since the only vector in U that has a non-zero entry in the e₂ or e₄ position is the zero vector. Therefore, R⁵ = U ⊕ W.

To know more about vectors, refer here:

https://brainly.com/question/29261830#

#SPJ11

Complete question:

Let U be the subspace of R⁵ defined by U = {(x₁, x₂, x₃, x₄, x₅) ∈ R⁵ : 2x₁ = x₂ and x₃ = x₅}. (a) Find a basis of U. (b) Find a subspace W of R⁵ such that R⁵= U⊕W.

There are 5,005 ways to choose 6 students from a class of 15 for the field trip. Therefore, there are 5005 ways the students can be chosen for the field trip.

To find the number of ways 6 students can be chosen out of 15, we can use the combination formula, which is:

nCr = n! / r! (n-r)!

where n is the total number of students (15) and r is the number of students to be chosen (6).

So, plugging in the values, we get:

15C6 = 15! / 6! (15-6)!
     = 5005

Therefore, there are 5005 ways the students can be chosen for the field trip.

To determine the number of ways 6 students can be chosen from a class of 15, you'll need to use the concept of combinations. In this case, the formula for combinations is C(n, r) = n! / (r!(n-r)!), where n is the total number of students (15) and r is the number of students to be chosen (6).

Using the formula, the number of ways to choose 6 students from 15 is:

C(15, 6) = 15! / (6!(15-6)!) = 15! / (6!9!) = 5,005

So, there are 5,005 ways to choose 6 students from a class of 15 for the field trip.

Visit here to learn more about  combination : https://brainly.com/question/13387529
#SPJ11

Ridicule is the use of derision, sarcasm, laughing, or mocking to denigrate a person or idea.

Ridicule can be used as a form of criticism, humor, or insult, and is often employed to express contempt or disapproval towards a particular individual, group, or concept. It can be expressed through various forms of communication such as verbal language, written text, or body language, and can be intentionally or unintentionally conveyed.

Ridicule can be harmful and hurtful to those targeted by it, and can contribute to a culture of negativity, disrespect, and hostility. As such, it is important to use communication that is respectful, constructive, and compassionate.

Therefore, Ridicule is the use of derision, sarcasm, laughing, or mocking to denigrate a person or idea.

Learn more about Ridicule here

https://brainly.com/question/31262337

#SPJ4

To solve this problem, we will use the concept of combinations. Combinations are used to find the number of ways to choose a certain number of items from a larger set without considering the order. In this case, we want to find the number of ways to choose 5 dishes out of 15 available main dishes.

The formula for combinations is:
C(n, k) = n! / (k! * (n-k)!)

Where C(n, k) is the number of combinations, n is the total number of items (15 dishes), and k is the number of items to choose (5 dishes).

Plugging in the values, we get:

C(15, 5) = 15! / (5! * (15-5)!)

Now, let's calculate the factorials:

15! = 1,307,674,368,000
5! = 120
10! = 3,628,800

Now, divide as the formula states:

C(15, 5) = 1,307,674,368,000 / (120 * 3,628,800) = 3,003

So, there are 3,003 different possible meals for the group to share at the restaurant.

To learn more about Combinations -  brainly.com/question/31586670

#SPJ11

Answer:

51.13

Step-by-step explanation:

38.35/6=6.39

6.39 * 8=51.13

The initial velocity of the drone is approximately 10.91 ft/s.

To solve this problem, we can use conservation of energy. Initially, the drone is at rest, so its initial kinetic energy is zero. At the moment it is caught in the net, all of its kinetic energy has been transferred to the arm of the catcher.

We can find the kinetic energy of the arm using its rotational kinetic energy formula:

K_rot = 1/2 I [tex]w^2[/tex]

where I is the moment of inertia of the arm about its pivot point (which we assume to be at O, the base of the arm), w is its angular velocity, and K_rot is its rotational kinetic energy.

We can find w using the conservation of angular momentum:

I w = mgh sin([tex]\theta[/tex])

where m is the mass of the drone, g is the acceleration due to gravity, h is the height the drone falls, and theta is the angle the arm swings to below horizontal.

The potential energy of the drone at height h is mgh, so we have:

K_rot = mgh [tex]sin(\theta)[/tex]

Setting this equal to the initial kinetic energy of the drone (zero), we get:

1/2 m [tex]vo^2[/tex] = mgh [tex]sin(\theta)[/tex]

Solving for vo, we get:

vo = [tex]\sqrt(2gh sin(\theta))[/tex]

Substituting the given values, we get:

vo = [tex]\sqrt(2 * 32.2 ft/s^2[/tex] * 8 ft * sin(30°)) = 10.91 ft/s

Therefore, the initial velocity of the drone is approximately 10.91 ft/s.

To know more about initial velocity, refer to the link below:

https://brainly.com/question/29161511#

#SPJ11

The volume of a rectangular prism with a length of 24.5 feet, a width of 14 feet, and a height of 11 feet is 3,773 ft³.

Given length of the rectangular prism = 24½ = 24.5 feet

width of the rectangular prism = 14 feet

height of the rectangular feet = 11 feet

volume of the rectangular prism is  = length x width x height

                                                   = 24.5 feet x 14 feet x 11 feet

                                                   = 3,773 feet³

So, from the above analysis, we can conclude that the volume of the given rectangular prism is 3,773 feet³. So, from the above options, the option A is correct.

To know more about rectangular prism,

https://brainly.com/question/30337697

#SPJ1

Answer:

each kid gets 5 baseball cards.

Step-by-step explanation:

The number of ways to select k items from a set of n items is given by the formula:
There are a couple of ways to approach this problem, but one common method is to use a combination formula.

We can think of distributing the cards as selecting a subset of 30 cards from the total pool, and then dividing them equally among  where n! means n factorial (i.e., the product of all positive integers up to n), and k! and (n-k)! mean the factorials of the two remaining numbers in the denominator.

For this problem, we want to divide 30 cards into 6 equal parts, which means each kid will get 30/6 = 5 cards. So we can simplify the problem by just choosing 5 cards at a time from the total pool of 30:

30 choose 5 = 30! / (5! * (30-5)!) = 142,506

This means there are 142,506 ways to choose 5 cards from 30, and each of these ways can be divided equally among the 6 kids. Therefore, the total number of ways to distribute the baseball cards is:

142,506 / 6! = 396

(Note that 6! means 6 factorial, or the product of all positive integers up to 6, which equals 720. We divide by 720 to account for the fact that the order in which we distribute the cards to the kids doesn't matter.) So there are 396 ways to distribute 30 different baseball cards to 6 kids so that each kid gets the same number of cards.

learn more about card here: brainly.com/question/30546452

#SPJ11

The functions are shown in the solution.

Given that (-2, 4) is on the terminal side of an angle in standard position. We need to evaluate the six trigonometric functions of θ.

The point's coordinates are:

x = -2, y = 4

To calculate the functions we have to calculate the distance between the point and the origin:

[tex]r = \sqrt{x^2+y^2}[/tex]

[tex]r = \sqrt{(-2)^2+4^2}\\\\r = \sqrt{4+16} \\\\r = \sqrt{20}[/tex]

Now we can calculate the functions:

Sin θ = y/r = 4/√20

Cos θ = x/r = -2/√20

tan θ = y/x = -4/2 = -2

Cosec θ = √20/4

Sec θ = -√20/2

Cot θ = -1/2

Hence, the functions are shown.

Learn more about trigonometric functions click;

https://brainly.com/question/6904750

#SPJ1

The 99% confidence interval for the thickness is

1.324 ± 0.061 or (1.263, 1.385)

What is the confidence interval?

A confidence interval is a range of values that is likely to contain the true value of an unknown population parameter, such as the population mean or population proportion. It is based on a sample from the population and the level of confidence chosen by the researcher.

a. The boxplot of the six measurements is as follows:

1.303  1.308  1.310  1.311  1.316  1.321

 ----   ----   ----   ----   ----   ----

b. Yes, the t distribution should be used to find a 99% confidence interval for the thickness. We can use the t-distribution because we have a small sample size (n = 6) and do not know the population standard deviation.

To find the confidence interval, we first calculate the sample mean and sample standard deviation:

sample mean = (1.303 + 1.308 + 1.310 + 1.311 + 1.316 + 1.321) / 6 = 1.312

sample standard deviation = 0.00634

Using a t-distribution with 5 degrees of freedom (n-1), we find the t-value for a 99% confidence interval:

t-value = 4.032

The margin of error for the confidence interval is:

margin of error = t-value * (sample standard deviation / √(n)) = 4.032 * (0.00634 / √(6)) = 0.013

Therefore, the 99% confidence interval for the thickness is:

1.312 ± 0.013 or (1.299, 1.325)

c. The boxplot of the six measurements is as follows:

1.301  1.307  1.317  1.318  1.323  1.374

 ----   ----   ----   ----   ----   ----

d. Yes, the t distribution should be used to find a 99% confidence interval for the thickness.

We can use the t-distribution because we have a small sample size (n = 6) and do not know the population standard deviation.

To find the confidence interval, we first calculate the sample mean and sample standard deviation:

sample mean = (1.301 + 1.307 + 1.317 + 1.318 + 1.323 + 1.374) / 6 = 1.324

sample standard deviation = 0.0297

Using a t-distribution with 5 degrees of freedom (n-1), we find the t-value for a 99% confidence interval:

t-value = 4.032

The margin of error for the confidence interval is:

margin of error = t-value * (sample standard deviation / √(n)) = 4.032 * (0.0297 / √(6)) = 0.061

Therefore, the 99% confidence interval for the thickness is

1.324 ± 0.061 or (1.263, 1.385).

Learn more about the confidence interval here:

https://brainly.com/question/20309162

#SPJ4

To do this, you need to integrate the joint pdf over the entire range of the random variables and set the result equal to 1, as the total probability must equal 1. To find the constant in the joint pdf given by a simple formula for random variables X and Y, we can use the fact that the integral of the joint pdf over the entire range of X and Y must equal 1.  

Mathematically, this means that:

∫∫f(x,y)dxdy = 1

where f(x,y) is the joint pdf.

Since the formula for the joint pdf is given as simple, we can assume that it is in the form of:

f(x,y) = c * g(x) * h(y)

where c is the constant we are trying to find, and g(x) and h(y) are the marginal pdfs of X and Y, respectively.

Using the fact that the integral over the entire range of X and Y must equal 1, we have:

∫∫c*g(x)*h(y)dxdy = 1

Since the marginal pdfs are independent of each other, we can split the integral into two parts:

∫g(x)dx * ∫h(y)dy = 1/c

We know that the integral of the marginal pdfs over their entire range must equal 1, so:

∫g(x)dx = 1

∫h(y)dy = 1

Substituting these into the previous equation, we get:

1/c = 1

Therefore, the constant c is equal to 1.

Thus, the joint pdf is given by:

f(x,y) = g(x) * h(y)

where g(x) and h(y) are the marginal pdfs of X and Y, respectively.

In problem 3, you are asked to find the constant in a joint pdf given by a simple formula for two random variables. To do this, you need to integrate the joint pdf over the entire range of the random variables and set the result equal to 1, as the total probability must equal 1. Solve for the constant to find its value.

Learn more about probability at: brainly.com/question/30034780

#SPJ11

To find parametric equations for the arc of a circle of radius 5 from P = (0,0) to Q = (10,0), we first need to find the center of the circle.

Since the arc starts at (0,0) and ends at (10,0), the center must be at (5,0). Next, we can use the standard parametric equations for a circle centered at (5,0) with radius 5:
x(t) = 5 + 5cos(t)
y(t) = 5sin(t)

Since we want the arc from P to Q, we need to find the values of t that correspond to those points. For P, x = 0 and y = 0, so we can set up the equations:
0 = 5 + 5cos(t)
0 = 5sin(t)

The second equation tells us that sin(t) = 0, which means t is an integer multiple of π. Since we want the arc from P to Q, we can choose t = 0, which gives us x = 10 and y = 0. Therefore, the parametric equations for the arc are:
x(t) = 5 + 5cos(t), 0 ≤ t ≤ π
y(t) = 5sin(t), 0 ≤ t ≤ π

Learn more about parametric equations here: brainly.com/question/29168942

#SPJ11

The fractions that are greater than 2/3 are 6/6, 4/5, and 9/10.

To determine which fractions are greater than 2/3, we need to compare them to 2/3 and see which ones are larger.

Therefore, the fractions that are greater than 2/3 are 6/6, 4/5, and 9/10.

Learn more about fractions

https://brainly.com/question/10354322

#SPJ4

To determine the probability that it will rain on both Friday and Saturday, we need to look at the historical data for the city.That would be the probability of rain on both days by multiplying the individual probabilities: P(Friday and Saturday) = P(Friday) * P(Saturday)

To determine the probability that it will rain on both Friday and Saturday, we need to look at the historical data for the city. We would need to analyze how often it rains on Fridays and Saturdays separately, and then calculate the probability of it raining on both days.

Without access to the specific historical data for the city in question, it is impossible to provide an accurate answer. However, we can use general statistics to estimate the likelihood of this occurring. Generally speaking, if the probability of rain on a Friday is 40% and the probability of rain on a Saturday is 30%, the probability of rain on both days would be 12%. This is calculated by multiplying the probabilities of each event occurring (0.4 x 0.3 = 0.12 or 12%).

To determine the probability that it will rain on both Friday and Saturday using historical daily rainfall data for a city, you would need to know the individual probabilities of rain on each day. For example, if the probability of rain on Friday is P(Friday) and the probability of rain on Saturday is P(Saturday), you can calculate the probability of rain on both days by multiplying the individual probabilities:

P(Friday and Saturday) = P(Friday) * P(Saturday)

You would need to obtain the historical data and calculate these probabilities to provide a specific answer.

Visit here to learn more about  probability : https://brainly.com/question/30034780
#SPJ11

The given set is not a vector space over R.

To prove that the set {p(x) E R3[x] : p'(1) = p(0)} with regular operations is not a vector space over R, we need to show that at least one of the eight axioms of a vector space is violated. Let p(x) = 2x + 1 and q(x) = -x + 4 be two polynomials in the set.

Closure under addition: p(x) + q(x) = 2x + 1 - x + 4 = x + 5. However, (x+5)'(1) = 1 ≠ (x+5)(0) = 5, so x + 5 is not in the set. Therefore, the set is not closed under addition.

Since one of the axioms is violated, the set {p(x) E R3[x] : p'(1) = p(0)} with regular operations is not a vector space over R.

learn more about "Vector space":- https://brainly.com/question/11383

#SPJ11

The formula of y in terms of x from the given conditions is y=5/4x³.

Given y is inversely proportional to a cubed.

Here, a =2 and y=10

y∝(1/a³)

y=k/a³

Here,

10=k/2³

10=k/8

k=80

So, the formula is y=80/a³ -------(i)

a is directly proportional to x

a∝x

a=kx

Here, x=4 and a=20

20=4k

k=5

So, the equation is a=4x -------(ii)

From equation (i) and (ii), we get

y=80/(4x)³

y=80/64x³

y=10/8x³

Then, the formula is y=5/4x³

Therefore, the formula of y in terms of x from the given conditions is y=5/4x³.

Learn more about the inverse variation here:

brainly.com/question/11592410.

#SPJ4

The answers are:

a.   5 ft

b.   No

c.   [0, ∞)

d.   [5, 55]

From the graph:

x-axis:  t = time (in seconds)

y-axis:  H(t) = height (in feet)

a) When H(0), t = 0  ⇒  y-intercept.

Therefore, from inspection of the graph, H(0) = 5 ft

b) H(t) = 0 does not have a solution as the curve never touches the y-axis

(when y = 0).

c) Domain: set of all possible input values (x-values)

The domain is time (t) (x-axis), therefore the domain is [0, ∞)

d) Range: set of all possible output values (y-values)

From inspection of the graph, the lowest value of H(t) is 5 and the highest value of H(t) is 55.  

Therefore, the range is [5, 55]

Learn more about functions, click;

https://brainly.com/question/21145944

#SPJ1

W is not a vector space, as it does not satisfy the necessary conditions for scalar multiplication and vector addition.

a. If u is in W and c is any scalar, cu is not necessarily in W. Here's why:

- If u = (x, y) is in W, then xy ≥ 0 since u is in the first or third quadrant.
- If c is a positive scalar, then cu = (cx, cy) and (cx)(cy) = c^2(xy) ≥ 0, so cu is in W.
- However, if c is a negative scalar, then cu = (cx, cy) and (cx)(cy) = c^2(xy) < 0, so cu is not in W.

b. To find specific vectors u and v in W such that u+v is not in W, consider:

- u = (1, 1) in the first quadrant, so u is in W (1 * 1 = 1 ≥ 0)
- v = (-1, -1) in the third quadrant, so v is in W ((-1) * (-1) = 1 ≥ 0)
- u+v = (1-1, 1-1) = (0, 0), which is not in W because 0 * 0 = 0, and the union of the first and third quadrants does not include the origin.

Thus, W is not a vector space, as it does not satisfy the necessary conditions for scalar multiplication and vector addition.

to learn more about scalar multiplication click here:

brainly.com/question/31372882

#SPJ11

Step-by-step explanation:

To find the product, we need to apply the distributive property of multiplication over addition:

(4 - 2.5y) (0.35y) = 4(0.35y) - 2.5y(0.35y)

Simplifying the first term gives:

4(0.35y) = 1.4y

Simplifying the second term requires multiplying the coefficients and adding the exponents of y:

-2.5y(0.35y) = -0.875y^2

Putting it all together, we get:

(4 - 2.5y) (0.35y) = 1.4y - 0.875y^2

Therefore, the product is "1.4y - 0.875y^2".