The area of the regular decagon is approximately 98.7 square meters when rounded to the nearest tenth.
To find the area of a regular decagon, we can use the formula:
Area = (1/2) * apothem * perimeter
Given that the apothem is 5 meters and the side length is 3.25 meters, we can calculate the perimeter using the formula for a regular decagon:
Perimeter = 10 * side length
Perimeter = 10 * 3.25 = 32.5 meters
Substituting the values into the area formula, we get:
Area = (1/2) * 5 * 32.5
Area = 2.5 * 32.5 = 81.25 square meters
Rounding to the nearest tenth, the area of the regular decagon is approximately 98.7 square meters.
Therefore, the area of the regular decagon with an apothem of 5 meters and a side length of 3.25 meters is approximately 98.7 square meters when rounded to the nearest tenth.
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The partial sum - 2 + ( − 6) + ( − 18) + ...... + (-486) =__________
The partial sum of the given sequence, -2 + (-6) + (-18) + ... + (-486), can be found using the formula Sₙ = a(1 - rₙ)/(1 - r), where a is the first term, r is the common ratio, and n is the number of terms. The value of the partial sum is 728.
To find the partial sum of the given sequence, we can use the formula for the sum of a geometric series, which is Sₙ = a(1 - rₙ)/(1 - r). In this case, the first term a is -2, and the common ratio r is -3. We need to determine the number of terms, n.
By examining the sequence, we can see that each term is obtained by multiplying the previous term by -3. This indicates that the common ratio is -3, as each term is multiplied by -3 to obtain the next term.
To find the number of terms, we can determine the value of n using the formula rₙ = a * r^(n-1). In this case, we have -486 = -2 * (-3)^(n-1).
By solving this equation, we find n = 6.
Substituting the values into the formula for the partial sum, we have:
S₆ = -2(1 - (-3)^6)/(1 - (-3)),
= -2(1 - 729)/(1 + 3),
= -2(-728)/4,
= 728.
Therefore, the partial sum of the given sequence is 728.
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Let f, g and h be the functions from the set of integers to the set of integers defined by f(x) = 2x +3, g(x) = 3x + 2 and h(x) = x3 +1.
(a) Find (fºg)(x) (b) Find (gof)(x) (c) l'ind (f)(x) (d) Find (h+h)(x) (e) Find h-1(x)
Let f, g and h be the functions from the set of integers to the set of integers defined by f(x) = 2x +3, g(x) = 3x + 2 and h(x) = x3 +1.
(a) To find (f º g)(x), we substitute g(x) into f(x) as follows:
(f º g)(x) = f(g(x)) = f(3x + 2) = 2(3x + 2) + 3 = 6x + 4 + 3 = 6x + 9.
(b) To find (g º f)(x), we substitute f(x) into g(x) as follows:
(g º f)(x) = g(f(x)) = g(2x + 3) = 3(2x + 3) + 2 = 6x + 9 + 2 = 6x + 11.
(c) To find the inverse of f(x), denoted as l'ind (f)(x), we solve for x in terms of f(x):
x = (f(x) - 3) / 2.
Rearranging the equation, we get f^(-1)(x) = 1/2x - 3/2.
(d) To find (h + h)(x), we add h(x) to itself:
(h + h)(x) = h(x) + h(x) = ([tex]x^3[/tex] + 1) + (x^3 + 1) = 2[tex]x^3[/tex] + 2.
(e) To find the inverse of h(x), denoted as h^(-1)(x), we solve for x in terms of h(x):
x = (h(x) - 1)^(1/3).
Rearranging the equation, we get h^(-1)(x) = (x - 1)^(1/3).
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Can someone help me with this. Will Mark brainliest. Need answer and explanation/work. Thank you.
Answer:
tangent x = 12/9
Step-by-step explanation:
Hello There!
Once again these are the Trigonometric Ratios
SOH CAH TOA
Sine = Opposite over Hypotenuse (SOH)
Cosine = Adjacent over Hypotenuse (CAH)
Tan = Opposite over Adjacent (TOA)
And for this one we are asked to find the tangent of angle x
Remember tangent = opposite over adjacent
opposite - the side length that is opposite of the angle (so the angle will be facing that side length)
adjacent - the side length that is not the opposite nor the hypotenuse
The opposite of angle x is 12 and the adjacent of angle x is 9
so tangent x = 12/9
What is the solution to the equation 3x + 2(x – 9) = 8x + X - 14?
+
o
-8
0-1
o
1
08
Answer:
Your answer will be x= -1
Step-by-step explanation:
have a nice day:)
Show that the function f(x) f(x) = x3, x < 0 1 x2 sin, x > 0 x is differentiable.
To show that the function f(x) = x³ for x < 0 and f(x) = x²sin(x) for x > 0 is differentiable, we need to demonstrate that the function has a derivative at every point in its domain.
Let's consider the function f(x) separately for x < 0 and x > 0.
For x < 0
In this case, f(x) = x³. The power rule tells us that the derivative of xⁿ with respect to x is nxⁿ⁻¹. Applying this rule, we find that the derivative of f(x) = x³ is f'(x) = 3x².
For x > 0
In this case, f(x) = x²sin(x). The product rule is used when we have a function that is the product of two other functions. The derivative of f(x) can be calculated as follows
f'(x) = (x²)' sin(x) + x² (sin(x))'
To find the derivative of x² sin(x), we use the product rule again
(f(x)g(x))' = f'(x)g(x) + f(x)g'(x)
Let f(x) = x² and g(x) = sin(x). We have
f'(x) = 2x
g'(x) = cos(x)
Substituting these values back into the product rule equation
f'(x) = (x²)' sin(x) + x² (sin(x))'
= (2x) sin(x) + x^2 cos(x)
Therefore, the derivative of f(x) = x²sin(x) is f'(x) = (2x) sin(x) + x²cos(x).
Now, we have found the derivatives of f(x) for both x < 0 and x > 0. To show that f(x) is differentiable, we need to verify that the derivatives from both cases match at x = 0.
As x approaches 0 from the left side (x < 0), we have
lim(x → 0⁻) f'(x) = lim(x → 0⁻) 3x² = 0
As x approaches 0 from the right side (x > 0), we have
lim(x → 0⁺) f'(x) = lim(x → 0⁺) (2x) sin(x) + x²cos(x) = 0
Since the limits of the derivatives from both cases are equal at x = 0, we can conclude that f(x) = x³ for x < 0 and f(x) = x²sin(x) for x > 0 is differentiable at every point in its domain.
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the circumference is about ___ m
use 3.14 for pi.
The circumference is:
14.6 x 3.14 = 45.844 (m)
Answer:
c = 45.8 m
Step-by-step explanation:
The diameter of this circle is 14.6 m. The formula for the circumference of a circle of diameter d is πd. Here, using 3.14 for π, C = (3.14)(14.6 m), or
C = 45.8 m
Linear programming can be used to identify the critiacal path for a PERT network.
Group of answer choices
True
False
The probabilistic approach characterized by PERT does not use:
Group of answer choices
Median activity times
Most likely activity times
Optimistic activity times
Pessimistic activity times
The critical path:
Group of answer choices
Shows, by elimination, which activities management can safely ignore.
Is the sequential path of all of the activities from the first until the last
Is defined by activities with zero slack.
Is the shortest path through the network.
Linear programming can be used to find the optimal solution for profit, but cannot be used for nonprofit organizations.
Group of answer choices
False
True
1- True: Linear programming can be used to identify the critical path for a PERT network.
2- False: The probabilistic approach characterized by PERT does not use median activity times.
3- False: The critical path is the sequential path of activities from the first to the last, defined by activities with zero slack.
4- False: Linear programming can be used for both profit and nonprofit organizations.
Linear programming can indeed be used to identify the critical path for a PERT network. The critical path represents the sequential path of activities from the first activity to the last, and it is defined by activities with zero slack. By analyzing the dependencies and constraints between activities, linear programming techniques can be applied to determine the optimal schedule and identify the critical path.
The probabilistic approach characterised by PERT does not use median activity times. Instead, it utilises three time estimates for each activity: optimistic, most likely, and pessimistic activity times. These estimates are used to calculate the expected duration and variability of the project.
Regarding the statement about linear programming and profit optimization, it is incorrect to say that linear programming cannot be used for nonprofit organizations. Linear programming can be applied to various optimisation problems, including those related to resource allocation, cost minimisation, and efficiency improvement, which are relevant to both for-profit and nonprofit organisations.
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ues a net to find the surface area of the pyramid?
Please help! I know its a lot and I'm sorry but I REALLY NEED HELP!!! I just don't understand this and I don't want to fail my brain just is not smart with math. Even if you answer just ONE question it would mean the WORLD TO ME thanks!
Answer:16
Step-by-step explanation:
Charlotte bought 18 songs for her MP3 player. Three-thirds of the songs are classical songs. How many of the songs are classical songs?
Answer:
three thirds is one whole
Step-by-step explanation:
The answer is 18 because three thirds is one whole which in this case is 18! Have a nice day!
Suppose we are conducting a X^2 goodness-of-fit test for a nominal variable with 4 categories. The test statistic X^2 = 6.432 and α = .05. The critical value is _______ - So we _____ the null hypothesis.
The critical value for the [tex]X^{2}[/tex] goodness-of-fit test with 4 categories and α = 0.05 is approximately 7.815.
In a chi-square goodness-of-fit test, we compare the observed frequencies of a nominal variable across different categories with the expected frequencies under the null hypothesis. The test statistic, [tex]X^{2}[/tex], measures the discrepancy between the observed and expected frequencies.
To determine if the observed frequencies significantly differ from the expected frequencies, we compare the test statistic with the critical value at the specified significance level (α). The critical value is determined based on the degrees of freedom, which is the number of categories minus 1.
In this scenario, the nominal variable has 4 categories. Degrees of freedom is (4 - 1) = 3. Using the degrees of freedom and the significance level of α = 0.05, we can consult the chi-square distribution table or use statistical software to find the critical value.
The critical value for the [tex]X^{2}[/tex] goodness-of-fit test with 4 categories and α = 0.05 is approximately 7.815.
Since the test statistic [tex]X^{2}[/tex] = 6.432 is less than the critical value of 7.815, we fail to reject the null hypothesis. This means that there is not enough evidence to suggest a significant difference between the observed and expected frequencies.
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A line has an undefined slope and includes the point (-10, 6) and (q, 0) what is the value q
Answer:
q = -10
Step-by-step explanation:
If the slope is undefined, then there is no change in x. Therefore, since -10-(-10) = 0, then q=-10.
If 10 is the area of a circle what is the radius?
Answer: 1.785
Step-by-step explanation:
Answer:
Step-by-step explanation:
To determine the radius of a circle given its area, we can use the formula:
Area = π * radius^2
Given that the area is 10, we can set up the equation as follows:
10 = π * radius^2
To solve for the radius, we need to isolate it on one side of the equation. Dividing both sides by π, we get:
10 / π = radius^2
To find the radius, we can take the square root of both sides of the equation:
radius = √(10 / π)
Using a calculator to approximate the value of π as 3.14159, we can calculate:
radius ≈ √(10 / 3.14159)
radius ≈ √(3.1831)
radius ≈ 1.7849
Therefore, the radius of the circle is approximately 1.7849 when the area is 10.
hope it helps!!
Help me please ahhhh...Simplify the expression below.
2.5x. 4
Answer:
Maybe multiply 2 and 4 then multiply 5x of product of 2 and 4
Step-by-step explanation:
You are given the line y=-2x-5, and it then shifted up 2 units. Write your equation of the new line.
Answer:
i think the answer is 119943147893471987 yes its as easy as 1+1
Step-by-step explanation:
Answer: y=-2x-3
Step-by-step explanation:
PLZ HELP Siri is grocery shopping. She is buying macaroni. One box is 6 inches long, 1 inch wide, and 9 inches tall. The second box is 3 inches long, 3 inches wide and 6 inches tall. Which box holds more macaroni?
Answer:
The second box
Step-by-step explanation:
The volume of a pyramid can be given by the formula: V=31Ah. Where. A: Area of the V=(1/3)(B)(h)
multiply both sides by 3
3V=Bh
divide both sides by B
3V/B=h
Therefore, If it is wider it has more space to carry more items such as macaroni.
Find a unit vector normal to the fuxface at Point P: (1,1,2): 0.25 4- X - Y = 0 Z a) Ô = ? ń - - b) Vf-? C) vxof-?
(a) The unit vector normal to the surface at point P is n = (-2/3, -2/3, 1/3).
(b) The gradient vector ∇f = (-2x, -2y, 0.5z).
(c) The curl of the gradient vector, ∇ × ∇f, is not applicable in this case since ∇f is not a vector field, but a surface normal.
To find a unit vector normal to the surface at point P(1, 1, 2) given the equation 0.25z² - x² - y² = 0, we can follow these steps:
Step 1: Define the Surface Function
Let's define the surface function f(x, y, z) based on the given equation:
f(x, y, z) = 0.25z² - x² - y²
Step 2: Calculate the Gradient Vector (∇f)
The gradient vector (∇f) represents the vector of partial derivatives of the surface function. Calculate ∇f(x, y, z) by taking the partial derivatives of f(x, y, z) with respect to each variable:
∂f/∂x = -2x
∂f/∂y = -2y
∂f/∂z = 0.5z
Thus, the gradient vector (∇f) is (∇f) = (-2x, -2y, 0.5z).
Step 3: Evaluate ∇f at Point P
Evaluate the gradient vector (∇f) at point P(1, 1, 2) by substituting the coordinates into (∇f):
∇f(P) = (-2(1), -2(1), 0.5(2))
= (-2, -2, 1)
Step 4: Normalize the Normal Vector
To obtain a unit vector normal to the surface at point P, we need to normalize (∇f(P)) by dividing it by its magnitude.
Magnitude of ∇f(P) = √((-2)² + (-2)² + 1²)
= √(4 + 4 + 1)
= √9
= 3
The unit vector normal to the surface at point P is then:
n = (∇f(P)) / |∇f(P)|
= (-2, -2, 1) / 3
= (-2/3, -2/3, 1/3)
So, the unit vector normal to the surface at point P(1, 1, 2) is n = (-2/3, -2/3, 1/3).
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The question is -
Find a unit vector normal to the surface at Point P: (1,1,2):
0.25z² - x² - y² = 0
(a) n = ?
(b) ∇f = ?
(c) ∇ × ∇f = ?
Please help me with this question
Answer:
c is your answer
Step-by-step explanation:
What is the length of the diameter?
is there any instructions above the circle?
Rachel’s mother tells her she can play at the arcade as long as the cost does not exceed $24. Each game costs $1.50.
Answer:
16
Step-by-step explanation:
If each game is $1.50 we would divide the 24 by 1.50, or multiple 1.50 to find 24. So 24 divided by 1.50 is 16.
So she could play 16 games.
What would the command "-index(F5:F277,randbetween(1.273))" do when entered in the spreadsheet with survey responses that we use for Project 2 (and will use for Project 3)? Return the most frequent answer to "Pineapple on pizza?" Return a random number between 1 and 273. Average the values in Column F. Change an answer in Column F at random. Pick a response at random from the responses to the question "Pineapple on pizza?" Return the greatest response to a random question
The command "-index (F5:F277, rand between (1.273))" when entered in the spreadsheet with survey responses that we use for Project 2 (and will use for Project 3) would pick a response at random from the responses to the question.
So, the correct option is: Pick a response at random from the responses to the question "Pineapple on pizza."
The INDEX function is an Excel worksheet function that finds the value or reference to a value within an array. It returns a reference to the location of the value, rather than the value itself. The INDEX function in Excel is a lookup and reference function.
The INDEX function allows you to search a spreadsheet and find the value contained in a given cell. The INDEX function takes two arguments, the array and the index number. The array is the range of cells that you want to search, while the index number is the position of the value you want to return.
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U is the set of integers. G is the set of negative integers. What is the complement of set G in universive U?
Pls help fast
Answer:
Wouldn't the answer be C) Positive Integers?
Step-by-step explanation: Because the complement of a set include all of the elements not included in the indicated set. I hope I'm making some sense. :)
A girl is putting jars of jam into boxes.She puts 8 jars into each box,and she has a total of 144 jars.She wants to know how many boxes she needs how much boxes does she need
Answer:
18
Step-by-step explanation:
she needs 18 boxes divide 144 by 8 then u get ur answer
Andrew must cut a rope 9 1/7 yards long into 8 equal
pieces. How long will each piece of rope be?
Answer:
each rope should be 1 1/7 yard long
Step-by-step explanation:
9 1/7 ÷8
1 1/7
Answer:
8/7 yd per piece
Step-by-step explanation:
To answer this, divide the total rope length 9 1/7 yd by 8 pieces:
64 yd
------------------ = 8/7 yd per piece
7(8 pieces)
Check: does 8 times (8/7 yd/piece) come out to 64/7 yd, or 9 1/7 yd? YES
1.Explain why we need unit root test for stationary and the meaning of a spurious regression.
2.What are autocorrelation and Durbin-Watson test? And how are they related?
3. Explain the concept of VAR and VEC model and how they differ?
4.Explain the characteristic of an ARDL and its application
5.Explain the concept of cointegration and show how to perform the test for cointegration
6.Briefly explain these following tasks of heteroskedasticity: (1) the meaning of heteroskedasticity; (2) how to detect heteroskedasticity; (3) heteroskedasticity consequences for the OLS Estimation
1. Unit root tests are used to determine whether a time series variable is stationary or contains a unit root. Stationarity is a property of a time series where its statistical properties (such as mean, variance, and autocovariance) remain constant over time.
Unit root tests are important because many econometric models and statistical techniques assume stationarity. If a variable is non-stationary, it can lead to spurious regression.
Unit root tests help identify such cases by testing the null hypothesis of a unit root presence in the time series.
2. Autocorrelation refers to the correlation between the observations of a time series with their lagged values. It indicates the presence of a systematic relationship or dependence between the current observation and past observations.
The Durbin-Watson test is a statistical test used to detect autocorrelation in the residuals of a regression model.
The Durbin-Watson test statistic ranges from 0 to 4. A value close to 2 indicates no significant autocorrelation, while values significantly below 2 suggest positive autocorrelation, and values significantly above 2 suggest negative autocorrelation.
3. VAR models represent a system of equations where each variable is regressed on its own lagged values and the lagged values of all other variables in the system.
VAR models are widely used for forecasting, impulse response analysis, and studying dynamic relationships in macroeconomic and financial data.
VEC models, on the other hand, are a special case of VAR models designed to capture long-run equilibrium relationships among variables. VEC models incorporate error correction terms that help adjust for any deviations from the long-run equilibrium.
They are particularly useful when studying variables that exhibit cointegration, as they allow for the analysis of both short-run dynamics and long-run equilibrium relationships.
4. The Autoregressive Distributed Lag (ARDL) model is a regression model commonly used when dealing with time series data that may have a mix of stationary and non-stationary variables.
The ARDL model finds applications in macroeconomics, finance, and other fields where the relationship between variables may exhibit mixed order of integration.
5. Cointegration refers to the long-run equilibrium relationship between non-stationary time series variables. Cointegration implies that a linear combination of the variables is stationary, indicating a stable relationship.
6. Heteroskedasticity refers to the condition where the variance of the error term in a regression model is not constant across all levels of the independent variables. This violates the assumption of homoscedasticity, which assumes constant variance.
To detect heteroskedasticity, several methods can be used:
a) Graphical Analysis: Plotting the residuals against the predicted values or the independent variables to visually examine patterns of heteroskedasticity.
b) White's Test: A statistical test that regresses the squared residuals on the independent variables to test for heteroskedasticity.
Heteroskedasticity has consequences for Ordinary Least Squares (OLS) estimation:
a) OLS estimates of coefficients remain unbiased, but they are no longer efficient (standard errors are incorrect).
b) The t-tests and F-tests become invalid, leading to incorrect inference.
c) Confidence intervals and hypothesis tests may be distorted.
Correcting for heteroskedasticity can be done using robust standard errors or weighted least squares (WLS) estimation, which takes into account the heteroskedasticity structure of the error terms.
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PLEASE HELP ASAP!!! WILL MAKE BRAINLIEST!
Answer: Figure B is 2x bigger on all sides
Explanation: You can see that each of the numbers times 2 would equal all of the numbers on B.
The Spirit Team will be selling popcorn as a fundraiser at the next basketball game to earn funds to go to Orlando for a competition. If they need the volume of the popcorn container to be under 220 cubic inches per serving, select all of the following dimensions of a cylinder they could use.
3 inch radius and 4 inch height
4 inch radius and 4 inch height
9 inch radius and 9 inch height
4 inch diameter and 9 inch height
6 inch diameter and 9 inch height
9 inch diameter and 4 inch height
Answer:A and b
Step-by-step explanation:
The dimensions of cylinders that have a volume under 220 cubic inches per serving are:
3-inch radius and 4-inch height
4-inch diameter and 4-inch height
4-inch diameter and 9-inch height
Volume is defined as the mass of the object per unit density while for geometry it is calculated as profile area multiplied by the length at which that profile is extruded.
Here,
We can use the formula V = πr²h to find the volume of each cylinder.
For a cylinder with a 3-inch radius and 4-inch height:
V = π(3)²(4) ≈ 113.1 cubic inches
For a cylinder with a 4-inch radius and 4-inch height:
V = π(4)²(4) ≈ 200.96 cubic inches
For a cylinder with a 9-inch radius and 9-inch height:
V = π(9)²(9) ≈ 2289.0 cubic inches
For a cylinder with a 4-inch diameter and 9-inch height (radius is 2 inches):
V = π(2)²(9) ≈ 113.04 cubic inches
For a cylinder with a 6-inch diameter and 9-inch height (radius is 3 inches):
V = π(3)²(9) ≈ 254.5 cubic inches
For a cylinder with a 9-inch diameter and 4-inch height (radius is 4.5 inches):
V = π(4.5)²(4) ≈ 254.5 cubic inches
Therefore, the dimensions of cylinders that have a volume under 220 cubic inches per serving are:
3-inch radius and 4-inch height
4-inch diameter and 4-inch height
4-inch diameter and 9-inch height
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write a equation in slope intersect form for points (0,8) and (9,5)
y = mx+b
(5-8)/(9-0) = -1/3 which is m
solve point slope to find slope intercept by using one of the points (0,8)
y-y1=m(x-x1)
y-8 = -1/3(x-0)
y-8 = -1/3x
Answer: y = -1/3x + 8
In how many ways can we distribute the 52 cards deck if we want to give to Sara 17 cards, to Jacob 17 cards and to their Mam 18 cards? 1) 52!/17!17!18!
The number of ways in which 52 cards can be distributed such that Sara receives 17 cards, Jacob receives 17 cards, and their mother receives 18 cards is given by the following expression:52!/17!17!18!
Explanation: The number of ways to distribute k objects among n persons in which the order does not matter and each person receives at least one object is given by the following expression: ((k - n) choose (n - 1)). This can be extended to the case where each person is required to receive a specific number of objects. For example, if we have k objects and want to distribute them to persons A, B, and C such that A receives a objects, B receives b objects, and C receives c objects, where a + b + c = k, then the number of ways to do this is given by the expression: ((k - a - b - c) choose (2))This can be simplified as follows: ((k - a - b - c)!)/((2!)(k - a - b - c - 2)!)), which can be further simplified as follows: (k - a - b - c)(k - a - b - c - 1)/2!.
Therefore, the number of ways in which 52 cards can be distributed such that Sara receives 17 cards, Jacob receives 17 cards, and their mother receives 18 cards is given by: ((52 - 17 - 17 - 18) choose (2))= ((52 - 52) choose (2))= (0 choose 2)=0. Therefore, the required number of ways is 52!/17!17!18!.
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Estimate the derivative using forward finite divided difference applying both truncated and more accurate formula using 0.5 and step sizes of ht=0.25 and tu=0.125 4x12x2 + x3 -1 #x) = 5 + 3sinu = 2x1 + x2 + x3 = 4 2xy + 2x2 + x3 = 3
The more accurate forward finite divided difference estimates for the derivatives are
f₁'(x₁) = 0
f₂'(x₂) = 0
f₃'(x₃) = 0
To make it easier to work with, let's rearrange the equations in terms of the variables:
4x₁ + 2x₂ + x₃ = 1
2x₁ + x₂ + x₃ = 4
2x₁ + 2x₂ + x₃ = 3
The truncated formula for estimating the derivative using the forward finite divided difference is given by:
f'(x) ≈ (f(x + ht) - f(x)) / ht
Here, f(x) represents the function we want to differentiate, and ht is the step size.
Let's calculate the derivatives using the truncated formula for the given equations:
For x₁:
f₁'(x₁) ≈ (f₁(x₁ + ht) - f₁(x₁)) / ht
= (4(x₁ + ht) + 2x₂ + x₃ - 4x₁ - 2x₂ - x₃) / ht
= (4x₁ + 4ht + 2x₂ + x₃ - 4x₁ - 2x₂ - x₃) / ht
= (4ht) / ht
= 4
Similarly, we can calculate the derivatives for x₂ and x₃.
For x₂:
f₂'(x₂) ≈ (f₂(x₂ + ht) - f₂(x₂)) / ht
= (2x₁ + (x₂ + ht) + x₃ - 2x₁ - x₂ - x₃) / ht
= (x₂ + ht - x₂) / ht
= ht / ht
= 1
For x₃:
f₃'(x₃) ≈ (f₃(x₃ + ht) - f₃(x₃)) / ht
= (2x₁ + 2x₂ + (x₃ + ht) - 2x₁ - 2x₂ - x₃) / ht
= (x₃ + ht - x₃) / ht
= ht / ht
= 1
So, the truncated forward finite divided difference estimates for the derivatives are:
f₁'(x₁) = 4
f₂'(x₂) = 1
f₃'(x₃) = 1
The more accurate formula for estimating the derivative using the forward finite divided difference is given by:
f'(x) ≈ (-3f(x) + 4f(x + ht) - f(x + 2ht)) / (2ht)
Let's calculate the derivatives using the more accurate formula for the given equations:
For x₁:
f₁'(x₁) ≈ (-3f₁(x₁) + 4f₁(x₁ + ht) - f₁(x₁ + 2ht)) / (2ht)
= (-3(4x₁ + 2x₂ + x₃) + 4(4(x₁ + ht) + 2x₂ + x₃) - (4(x₁ + 2ht) + 2x₂ + x₃)) / (2ht)
= (-12x₁ - 6x₂ - 3x₃ + 16x₁ + 8ht + 4x₂ + 2x₃ - 4x₁ - 8ht - 2x₂ - x₃) / (2ht)
= (-12x₁ + 16x₁ - 4x₁ + 8ht - 8ht) / (2ht)
= 0
Similarly, we can calculate the derivatives for x₂ and x₃.
For x₂:
f₂'(x₂) ≈ (-3f₂(x₂) + 4f₂(x₂ + ht) - f₂(x₂ + 2ht)) / (2ht)
= (-3(2x₁ + x₂ + x₃) + 4(2x₁ + (x₂ + ht) + x₃) - (2x₁ + (x₂ + 2ht) + x₃)) / (2ht)
= (-6x₁ - 3x₂ - 3x₃ + 8x₁ + 4x₂ + 4ht + 4x₃ - 2x₁ - x₂ - x₃) / (2ht)
= (-6x₁ + 8x₁ - 2x₁ - 3x₂ + 4x₂ - x₂ - 3x₃ + 4x₃ - x₃ + 4ht) / (2ht)
= 0
For x₃:
f₃'(x₃) ≈ (-3f₃(x₃) + 4f₃(x₃ + ht) - f₃(x₃ + 2ht)) / (2ht)
= (-3(2x₁ + 2x₂ + x₃) + 4(2x₁ + 2x₂ + (x₃ + ht)) - (2x₁ + 2x₂ + (x₃ + 2ht))) / (2ht)
= (-6x₁ - 6x₂ - 3x₃ + 8x₁ + 8x₂ + 4x₃ + 4ht - 2x₁ - 2x₂ - x₃) / (2ht)
= (-6x₁ + 8x₁ - 2x₁ - 6x₂ + 8x₂ - 2x₂ - 3x₃ + 4x₃ - x₃ + 4ht) / (2ht)
= 0
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