Answer:
6336 feet = 0.3476 nautical leagues
After stepping into a room with unusual lighting, Kelsey's pupil has a radius of 3 millimeters. What is the pupil's area?
any one solve this quickly as possible urgent
Answer:
True
Step-by-step explanation:
4.*
The circle with center O has a circumference of 36 units. What is
the length of minor arc AC?
C
A. 9 units
B. 12 units
C. 18 units
D. 36 units
Answer:
9 units
Step-by-step explanation:
got it right on edg
Find the area of the triangle below
Answer:
24
Explanation: base times height divided by 2
Answer:
D) 24
Step-by-step explanation:
Area of a triangle:
A = 1/2bh
Given:
b = 12
h = 4
Work:
A = 1/2bh
A = 1/2(12)(4)
A = 6(4)
A = 24
Given f(x)=3x^2+kx+9, and the remainder when f(x) is divided by x-3 is 6, then what is the value of k?
Answer:
k = - 10
Step-by-step explanation:
6=9+3(k+9)
3(k+9)=-3
k+9= -1
k= -10
The value of k is -10.
What is Division?Division is one of the operation in mathematics where number is divided into equal parts as that of a definite number.
Given a function 3x² + kx + 9.
Divide the function with x - 3.
Do the long division process.
After doing the long division,
(3x² + kx + 9) / (x - 3), we get the quotient as 3x + (k + 9) and the remainder as 9 + 3(k + 9).
9 + 3(k + 9) = 6
3(k + 9) = -3
k + 9 = -1
k = -1 - 9
k = -10
Hence the number k has the value -10.
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what is 1 2/7- 3/4 equal to
9514 1404 393
Answer:
15/28
Step-by-step explanation:
We can rearrange the problem a bit and make it a little simpler.
1 2/7 - 3/4 = (1 -3/4) + 2/7 = 1/4 + 2/7
= (7+4·2)/(4·7) = 15/28
_____
The sum of fractions can always be found by ...
[tex]\dfrac{a}{b}+\dfrac{c}{d}=\dfrac{ad+bc}{bd}\\\\\dfrac{1}{4}+\dfrac{2}{7}=\dfrac{1\cdot7+4\cdot2}{4\cdot7}=\dfrac{7+8}{28}=\dfrac{15}{28}[/tex]
The product of two numbers is 342. If one number is 18, what is the other nnumber without the use of a calculator show all your steps
Solve the following problem using Simplex Method: MAX Z= 50 X1 + 20 X2 + 10 X3
ST 2
X1 + 4X2 + 5X3 <= 200
X1 + X3 <=90 X1 + 2X2 <=30 X1, X2, X3 >=0
The maximum value of the objective function Z is 1800. The optimal values for the decision variables are X1 = 10, X2 = 0, and X3 = 0. The constraints are satisfied, and the optimal solution has been reached using the Simplex Method.
To compute the given problem using the Simplex Method, we need to convert it into a standard form.
The standard form of a linear programming problem consists of maximizing or minimizing a linear objective function subject to linear inequality constraints and non-negativity constraints.
Let's rewrite the problem in standard form:
Maximize:
Z = 50X1 + 20X2 + 10X3
Subject to the constraints:
2X1 + 4X2 + 5X3 <= 200
X1 + X3 <= 90
X1 + 2X2 <= 30
X1, X2, X3 >= 0
To convert the problem into standard form, we introduce slack variables (S1, S2, S3) for each constraint and rewrite the constraints as equalities:
2X1 + 4X2 + 5X3 + S1 = 200
X1 + X3 + S2 = 90
X1 + 2X2 + S3 = 30
Now, we have the following equations:
Objective function:
Z = 50X1 + 20X2 + 10X3 + 0S1 + 0S2 + 0S3
Constraints:
2X1 + 4X2 + 5X3 + S1 = 200
X1 + X3 + S2 = 90
X1 + 2X2 + S3 = 30
X1, X2, X3, S1, S2, S3 >= 0
Next, we will create a table representing the initial simplex tableau:
| X1 | X2 | X3 | S1 | S2 | S3 | RHS |
---------------------------------------
Z | 50 | 20 | 10 | 0 | 0 | 0 | 0 |
---------------------------------------
S1 | 2 | 4 | 5 | 1 | 0 | 0 | 200 |
---------------------------------------
S2 | 1 | 0 | 1 | 0 | 1 | 0 | 90 |
---------------------------------------
S3 | 1 | 2 | 0 | 0 | 0 | 1 | 30 |
---------------------------------------
To compute the optimal solution using the Simplex Method, we'll perform iterations by applying the simplex pivot operations until we reach an optimal solution.
Iterating through the simplex method steps, we can find the following tableau:
| X1 | X2 | X3 | S1 | S2 | S3 | RHS |
---------------------------------------
Z | 0 | 40 | 10 | 0 | 0 | -500| 1800|
---------------------------------------
S1 | 0 | 3 | 5 | 1 | 0 | -40 | 120 |
---------------------------------------
S2 | 1 | 0 | 1 | 0 | 1 | 0 | 90 |
---------------------------------------
X1 | 0 | 2 | 0 | 0 | 0 | -1 | 10 |
---------------------------------------
The optimal solution is Z = 1800, X1 = 10, X2 = 0, X3 = 0, S1 = 120, S2 = 90, S3 = 0.
Therefore, the maximum value of Z is 1800, and the values of X1, X2, and X3 that maximize Z are 10, 0, and 0, respectively.
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PLEASE PLEASE PLEASE HELP
Answer:
so so so sorry I usually don't do this but you know
Step-by-step explanation:
should have never be a
What two numbers multiply to -5 and add to 4?
Answer:
The two numbers that multiply to -5 and add to 4 are:
5 and -1
Step-by-step explanation:
5 • -1= -5
5 - 1= 4
Help me PLZZ it’s worth 20 points
Answer: uhhhhhhhhhhhhhhhhhhh whats the question?
Step-by-step explanation:
Consider the function f() = x ln (2+1). Interpolate f(T) by a second order polynomial on equidistant nodes on (0,1). Estimate the error if it is possible.
To interpolate the function f(x) = x ln(2+1) by a second-order polynomial on equidistant nodes on the interval (0,1), we can use the Lagrange interpolation formula.
To interpolate f(T) by a second-order polynomial on equidistant nodes on (0,1), we need three equidistant nodes. Let's denote these nodes as x₀, x₁, and x₂, with x₀ = 0, x₁ = h, and x₂ = 2h, where h = (1-0)/2 = 1/2.
We can construct the Lagrange polynomial P₂(x) of degree 2 that interpolates f(x) at these nodes. The Lagrange interpolation formula for P₂(x) is:
P₂(x) = f(x₀) × L₀(x) + f(x₁) × L₁(x) + f(x₂) × L₂(x)
where L₀(x), L₁(x), and L₂(x) are the Lagrange basis polynomials.
Using the given function f(x) = x ln(2+1), we can evaluate f(x₀), f(x₁), and f(x₂). Plugging these values into the Lagrange interpolation formula, we obtain the second-order polynomial interpolation for f(T).
To estimate the error, we can use the error formula for polynomial interpolation. The error term E(x) is given by:
E(x) = f(x) - P₂(x)
To calculate the error, we would need to evaluate the derivative of f(x) and find its maximum value on the interval (0,1). However, without knowing the interval (T), we cannot estimate the error.
In summary, we can interpolate f(T) by a second-order polynomial on equidistant nodes on (0,1) using the Lagrange interpolation formula. However, without specifying the interval (T), it is not possible to estimate the error.
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The null hypothesis is that the laptop produced by HP can run on an average 120 minutes without recharge and the standard deviation is 25 minutes. In a sample of 60 laptops, the sample mean is 122 minutes. Test this hypothesis with the alternative hypothesis that average time is not equal to 120 minutes. What is the p-value?
The p-value can be calculated to test the null hypothesis that the average running time of HP laptops is 120 minutes against the alternative hypothesis that it is not equal to 120 minutes.
The p-value for testing the hypothesis that the average time for the HP laptops is not equal to 120 minutes can be calculated using a t-test. Given a sample mean of 122 minutes, a sample size of 60, a null hypothesis mean of 120 minutes, and a standard deviation of 25 minutes, we can calculate the t-value and find the corresponding p-value.
To calculate the t-value, we use the formula: t = (sample mean - null hypothesis mean) / (sample standard deviation / sqrt(sample size))
Plugging in the values, we get: t = (122 - 120) / (25 / sqrt(60))
Calculating the t-value, we find t ≈ 0.894
To find the p-value associated with this t-value, we can refer to a t-distribution table or use statistical software. The p-value represents the probability of observing a t-value as extreme as the one obtained, assuming the null hypothesis is true.
Since the p-value (0.757) is greater than the commonly used significance level of 0.05, we fail to reject the null hypothesis. This suggests that there is not enough evidence to conclude that the average running time of HP laptops is significantly different from 120 minutes.
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Question 10 of 10
What is the value of y?
10"
50
A. 30°
B. 40°
C. 50°
D. 60°
Answer:
i think ik it the aswer is c
Please help me on this question if you would want brianleist!! Tank yah!! ^^
You are given two functions, f: RR, f (x) = 3x and g:R+R, 9(r) = x+1 a. Find and record the function created by the composition of f and g, denoted gof. b. Prove that your recorded function of step (a.) is both one-to-one and onto. That is prove, gof:R R; (gof)(x) = g(f (r)). is well-defined where indicates go f is a bijection. For full credit you must explicitly prove that go f is both one-to-one and onto, using the definitions of one-to-one and onto in your proof. Do not appeal to theorems. You must give your proof line-by-line, with each line a statement with its justification. You must show explicit, formal start and termination statements as shown in lecture examples. You can use the Canvas math editor or write your math statements in English. For example, the statement to be proved was written in the Canvas math editor. In English it would be: Prove that the composition of functions fand g is both one-to-one and onto.
a) The function gof is gof(x) = 3x + 3.
b) The function gof: RR is well-defined.
a. The value of function gof(x) = 3x + 3.
To find the composition gof, we substitute the expression for g into f:
gof(x) = f(g(x))
= f(x + 1)
= 3(x + 1)
= 3x + 3
b. To prove that gof is both one-to-one and onto, we need to show the following:
(i) One-to-one: For any two different inputs x1 and x2, if gof(x1) = gof(x2), then x1 = x2.
(ii) Onto: For every y in the range of gof, there exists an x such that gof(x) = y.
Proof of one-to-one:
Let x1 and x2 be two different inputs. Assume that gof(x1) = gof(x2).
Then, 3x1 + 3 = 3x2 + 3.
Subtracting 3 from both sides, we have 3x1 = 3x2.
Dividing both sides by 3, we obtain x1 = x2.
Therefore, gof is one-to-one.
Proof of onto:
Let y be any real number in the range of gof, which is the set of all real numbers.
We need to find an x such that gof(x) = y.
Consider the equation 3x + 3 = y.
Subtracting 3 from both sides, we have 3x = y - 3.
Dividing both sides by 3, we obtain x = (y - 3)/3.
Thus, for any y in the range of gof, we can find an x such that gof(x) = y.
Therefore, gof is onto.
Since gof is both one-to-one and onto, it is a bijection.
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1. For all named stors that have made landfall in the United States since 2000, of interest is to determine the mean sustained wind speed of the storms at the time they made landfall in this scenario, what is the population of interest?
2. Based on the information in question 1, what is the parameter of interest?
A. The average π sustained wind speed of the storms at the time they made landfall
B. The mean µ of sustained wind speed of the storms
C. The proportion µ of the wind speed of storm
D. The mean µ usustained wind speed of the storms at the time they made landfall
E. The proportion π of number of storms with high wind speed
1. The population of interest are all named storms that have made landfall in the United States since 2000.
2. The parameter of interest is the mean µ of sustained wind speed of the storms. Therefore, the correct answer is option B.
The other options are not correct as follows:
Option A. The average π sustained wind speed of the storms at the time they made landfall - The term "average" is equivalent to "mean." However, π is not applicable since it denotes the constant 3.14159....
Option C. The proportion µ of the wind speed of storm - Proportion refers to a fraction or percentage of a whole, so this answer is illogical because µ denotes the mean.
Option D. The mean µ of sustained wind speed of the storms - This answer is wrong because it is not the correct order.
Option E. The proportion π of the number of storms with high wind speed - This answer is incorrect since π denotes the constant 3.14159..., and it is not applicable in this context.
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The population of interest is all named storms that have made landfall in the United States since 2000. The parameter of interest would be the mean sustained wind speed of the storms at the time they made landfall, as you're seeking the average wind speed at the moment of landfall.
Explanation:The population of interest refers to the complete group of individuals or cases that a researcher is interested in studying. In this case, it would be all named storms that have made landfall in the United States since 2000.
The parameter of interest is a numerical measure that describes a characteristic of a population. Based on the information in question 1, the parameter of interest would be D. The mean µ sustained wind speed of the storms at the time they made landfall. This is because you're interested in knowing the average wind speed of the storms at the moment they hit the land, not the proportion of storms with high wind speed or any other aspect of the storms.
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Pls help meee and thank you
Answer:
I believe the answer is y=4x+4
Step-by-step explanation:
because the 4 that is on the Y axis is the Y axis
and the 4 on the x axis will be the one with the variable
Hopefully this helps.
Find the line of best Fit
Lucy was born on 08/05/1999. How many eight digit codes could she make using the digits in her birthday
Answer:
3,360 different codes.
Step-by-step explanation:
Here we have a set of 8 numbers:
{0, 0, 1, 5, 8, 9, 9, 9}
Now we want to make an 8th digit code with those numbers (each number can be used only once)
Now let's count the number of options for each digit in the code.
For the first digit, we will have 8 options
For the second digit, we will have 7 options (because one was already taken)
For the third digit, we will have 6 options (because two were already taken)
you already can see the pattern here:
For the fourth digit, we will have 5 options
For the fifth digit, we will have 4 options
For the sixth digit, we will have 3 options
For the seventh digit, we will have 2 options
For the eighth digit, we will have 1 option.
The total number of codes will be equal to the product between the numbers of options for each digit, then we have that the total number of codes is:
N = 8*7*6*5*4*3*2*1 = 8!
But wait, you can see that the 9 is repeated 3 times (then we have 3*2*1 = 3! permutations for the nines), and the 0 is repeated two times (then we have 2*1 = 2! permutations for the zeros).
Then we need to divide the number of different codes that we found above by 3! and 2!.
We get that the total number of different codes is:
C = [tex]\frac{8!}{2!*3!} = \frac{8*7*6*5*4}{2} = 8*7*6*5*2 = 3,360[/tex]
3,360 different codes.
The number of eight digit code she can make is, 3360.
If any number have n digits, then number of ways it can be arranged = [tex]n![/tex]
Given that, Born date is, 08/05/1999
Total number of digits in birth date = 8
So, number of ways it can be arranged = [tex]8![/tex]
Since, In birth date 9 is three times and 0 is two times.
Therefore, number of arrangements = [tex]\frac{8!}{3!*2!}=3360[/tex]
Therefore, she can make 3360 eight digit codes from given birth date.
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Use spherical coordinates to find the volume of the solid within the cone z = 13x² +3y² and between the spheres x² + y² +=+ = 4 and x' + y +z = 25. You may leave your answer in radical form.
the volume of the solid within the cone is ρ²(12sin⁴(φ) - 11sin²(φ) + 3) = 0
To find the volume of the solid within the cone and between the spheres using spherical coordinates, we need to determine the limits of integration for the variables ρ, θ, and φ.
In spherical coordinates, we have the following relationships:
x = ρsin(φ)cos(θ)
y = ρsin(φ)sin(θ)
z = ρcos(φ)
Given:
Cone equation: z = 13x² + 3y²
Sphere equation: x² + y² + z² = 4
Plane equation: x + y + z = 25
First, let's determine the limits for the variable ρ:
Since we are dealing with spheres, we can set ρ to range from 0 to the radius of the larger sphere, which is 2.
0 ≤ ρ ≤ 2
Next, let's determine the limits for the variable θ:
The solid lies within the entire range of θ, which is from 0 to 2π.
0 ≤ θ ≤ 2π
Finally, let's determine the limits for the variable φ:
To find the limits for φ, we need to consider the intersection between the cone and the spheres.
1. Intersection of the cone and the larger sphere:
Substituting the equations of the cone and the larger sphere, we get:
13x² + 3y² = 4 - x² - y² - z²
12x² + 4y² + z² = 4
12(ρsin(φ)cos(θ))² + 4(ρsin(φ)sin(θ))² + (ρcos(φ))² = 4
12ρ²sin²(φ)cos²(θ) + 4ρ²sin²(φ)sin²(θ) + ρ²cos²(φ) = 4
ρ²(12sin²(φ)cos²(θ) + 4sin²(φ)sin²(θ) + cos²(φ)) = 4
ρ²(12sin²(φ)(1 - sin²(θ)) + cos²(φ)) = 4
ρ²(12sin²(φ) - 12sin²(φ)sin²(θ) + cos²(φ)) = 4
ρ²(12sin²(φ) - 12sin²(φ)(1 - cos²(θ)) + cos²(φ)) = 4
ρ²(12sin²(φ) - 12sin²(φ) + 12sin²(φ)cos²(θ) + cos²(φ)) = 4
ρ²(12sin²(φ)cos²(θ) + cos²(φ)) = 4
We need to solve this equation for ρ. Simplifying further:
ρ²(12sin²(φ)cos²(θ) + cos²(φ)) = 4
ρ²(12sin²(φ)(1 - sin²(φ)) + cos²(φ)) = 4
ρ²(12sin²(φ) - 12sin⁴(φ) + cos²(φ)) = 4
ρ²(12sin²(φ) - 12sin⁴(φ) + 1 - sin²(φ)) = 4
ρ²(11sin²(φ) - 12sin⁴(φ) + 1) = 4
ρ²(12sin⁴(φ) - 11sin²(φ) + 3) = 0
Since ρ cannot be negative
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Solve for n. c/d = d/c - 1/n
Answer:
Hi! The other answer is not correct to your question
The answer to your question is n= [tex]\frac{dc}{(c+d)(c-d)}[/tex]
Step-by-step explanation:
Solve the rational equation by combining expressions and isolating the variable n
※※※※※※※※※※※※※※※
⁅Brainliest is greatly appreciated!⁆
- Brooklynn Deka
Hope this helps!!
Let A = {1, 2, 3, 4} and B = {5, 6, 7}.
a). Give an example of an onto function f: A→B, or explain why this is impossible. (You can draw a graph, make a table, or list ordered pairs.)
b). Give an example of a one-to-one function g: A→B, or explain why this is impossible. (You can draw a graph, make a table, or list ordered pairs.)
c). Give an example of an equivalence relation on A, or explain why this is impossible. (You can draw a graph or list ordered pairs.)
The relation ‘equal to’ is an equivalence relation on A.
a) To give an example of an onto function f: A → B, we need to ensure that every element in set B is mapped to from set A. Since set B has three elements (5, 6, 7) and set A has four elements (1, 2, 3, 4), it is impossible to have an onto function from A to B.
This is because there are more elements in A than in B, so at least one element in B will not have a corresponding element in A.
b) A function g: A → B is a one-to-one function if each element of set A is paired with a distinct element in set B. Let us create a table to get the one-to-one function g.
Table of one-to-one function gA1234B5677The function g: A → B can be defined by g(1) = 5, g(2) = 6, g(3) = 7 and g(4) = 7.
Hence, this is a one-to-one function.
c) An equivalence relation is a relation that is reflexive, symmetric, and transitive.
We can define an equivalence relation on set A using the relation ‘equal to’. Every element of set A is equal to itself, i.e., ∀ a ∈ A, a = a.
Hence, this is a reflexive relation on A. Also, if a and b are two elements of A such that a = b, then b = a.
Hence, this is a symmetric relation on A. Also, if a, b, and c are three elements of A such that a = b and b = c, then a = c. Hence, this is a transitive relation on A.
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A phone company charges a monthly fee of $35.00 and $0.10 per text message. Bridget wants to pay less than $1200.00 total for her monthly phone bill over a 12-month period. What is the most number of text she can send to stay within her budget for the year? Question 11 options: 11,650 11,649 7,800 7,799
Is it possible or impossible for a graph to have exactly one vertex of odd degree. If so, describe the graph by giving its degree sequence. If not, explain why not.
It is impossible for a graph to have exactly one vertex of odd degree.
What is a vertex?Vertex is described as a point on a polygon where the sides or edges of the object meet or where two rays or line segments meet.
The total of all vertices' degrees in any graph is always even. This is so because each edge adds two degrees—one for each endpoint—to the overall number of degrees.
The total number of degrees at all vertices must therefore be an even number.
If a graph had exactly one vertex of odd degree, the sum of the degrees of all other vertices would be even.
if we add an odd degree to an even sum, the result would be in an odd total degree count, which contradicts the fact that the sum of all degrees in a graph is always even.
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El costo de un servicio de taxi en la CDMX es de $27.73 por el banderazo más $1.84 por cada kilómetro recorrido. Si una persona pagó $82, ¿cuántos kilómetros recorrió el taxi? PLANTEA Y RESUELVE EL PROBLEMA COMO ECUACIÓN *
Answer:
use the link it helps alot
Shade the region in the complex plane defined by {z € C: 2+2+2i| ≤ 2}.
There is no region in the complex plane to shade for the given inequality.
To shade the region in the complex plane defined by {z ∈ C: 2+2+2i| ≤ 2}, let's break down the problem step by step.
The inequality given is: |2+2+2i| ≤ 2
First, let's simplify the expression within the absolute value:
2 + 2 + 2i = 4 + 2i
The inequality now becomes: |4 + 2i| ≤ 2
To find the absolute value of a complex number z = a + bi, we use the formula: |z| = √(a² + b²)
Applying this formula to our complex number, we have:
|4 + 2i| = √(4² + 2²) = √(16 + 4) = √20 = 2√5
Now the inequality becomes: 2√5 ≤ 2
To solve for √5, we divide both sides of the inequality by 2:
√5 ≤ 1
Since the square root of 5 is approximately 2.236, and it is not less than or equal to 1, the inequality is not satisfied.
Therefore, there is no region in the complex plane to shade for the given inequality.
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There are twice as many girls as boys in Mr. Terpathi’s 7th grade math class. Each of the girls gave him an oatmeal cookie, and each of the boys gave him a chocolate cookie. Mr Terpathi arranged the cookies in one row with a chocolate cookie farthest to the right. Which of the following must be true?
A. The cookie farthest to the left is chocolate.
B. The cookie farthest to the left is oatmeal.
C. There are at least two chocolate cookies next to each other.
D. There are at least two oatmeal cookies next to each other.
E. Mr. Terpathi received more chocolate cookies than oatmeal cookies.
Answer: D. There are at least two oatmeal cookies next to each other.
Step-by-step explanation:
Alright so basically we can use process of elimination to determine what is true or false so
A. States the farthest to the left is chocolate but we can't prove that because all we know is the cookie farthest to the right is chocolate so this is false
B. Same reason as A we cannot prove what cookie is farthest to the left because we are not given a pattern so B is false
C. Since there are definitely twice as many girls as boys in the class and that also means there are twice as many oatmeal cookies then we cannot prove that 2 chocolate cookies have to be next to each other so also false
D. This has to be true because if there are twice as many girls as boys and more oatmeal than chocolate then is whatever cookie line combinataion we will have at least 2 oatmeal cookies next to each other So this is true
E. This is most definitely not true because the question tells us that twice as many girls gave him oatmeal so if anything there are more oatmeal cookies
Can a simple directed graph G = (V, E) with at least three vertices and the property that deg+(v) + deg¯(v) = 1, Vv € V exist or not? Show an example of such a graph if it exists or explain why it cannot exist.
No, such a simple directed graph with at least three vertices and the property that deg+(v) + deg¯(v) = 1 cannot exist.
The property deg+(v) + deg¯(v) = 1 implies that for every vertex v in the graph, the sum of its in-degree (deg¯(v)) and out-degree (deg+(v)) is equal to 1. In a directed graph, the in-degree of a vertex represents the number of incoming edges, while the out-degree represents the number of outgoing edges.
If we consider a graph with at least three vertices, let's say v1, v2, and v3, and apply the given property, we would have:
deg+(v1) + deg¯(v1) = 1
deg+(v2) + deg¯(v2) = 1
deg+(v3) + deg¯(v3) = 1
However, this leads to a contradiction. In a directed graph, the sum of in-degrees and out-degrees of all vertices is always equal. Therefore, if we sum up the equations above, we would get:
deg+(v1) + deg+(v2) + deg+(v3) + deg¯(v1) + deg¯(v2) + deg¯(v3) = 3
Since each term on the left-hand side of the equation is at least 1 (due to the property), the sum would be at least 6. This contradicts the fact that the sum should be equal to 3.
Hence, a simple directed graph with at least three vertices and the property deg+(v) + deg¯(v) = 1 cannot exist.
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mary says the pen for her horse is an acute right triangle. Is this possible?