To find the coordinates of the point on the 2-dimensional plane H that is closest to the point p = (2, 0, -2), we can use the concept of orthogonal projection.
The equation of the plane H is given by X₁ - X₂ + 2X₃ = 0.
Let's denote the coordinates of the point on the plane H that is closest to p as (x₁, x₂, x₃).
To find this point, we need to find the orthogonal projection of the vector OP (where O is the origin) onto the plane H.
The normal vector to the plane H is (1, -1, 2) (the coefficients of X₁, X₂, and X₃ in the equation of the plane).
The vector OP can be obtained by subtracting the coordinates of the origin (0, 0, 0) from p:
OP = (2, 0, -2) - (0, 0, 0) = (2, 0, -2).
Now, we can calculate the projection vector projH(OP) by projecting OP onto the normal vector of the plane H:
projH(OP) = ((OP · n) / ||n||²) * n
where · denotes the dot product and ||n|| represents the norm or length of the vector n.
Calculating the dot product:
(OP · n) = (2, 0, -2) · (1, -1, 2) = 2(1) + 0(-1) + (-2)(2) = 2 - 4 = -2
Calculating the squared norm of n:
||n||² = ||(1, -1, 2)||² = 1² + (-1)² + 2² = 1 + 1 + 4 = 6
Substituting the values into the projection formula:
projH(OP) = (-2 / 6) * (1, -1, 2) = (-1/3)(1, -1, 2)
Finally, we can find the coordinates of the closest point on the plane H by adding the projection vector to the coordinates of the origin:
(x₁, x₂, x₃) = (0, 0, 0) + (-1/3)(1, -1, 2) = (-1/3, 1/3, -2/3)
Therefore, the coordinates of the point on the plane H that is closest to p = (2, 0, -2) are approximately (-1/3, 1/3, -2/3).
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You are attempting to conduct a study about small scale bean farmers in Chinsali Suppose, a sampling frame of these farmers is not available in Chinsali Assume further that we desire a 95% confidence level and ±5% precision (3 marks) 1) How many farmers must be included in the study sample 2) Suppose now that you know the total number of bean farmers in Chinsali as 900. How many farmers must now be included in your study sample (3 marks)
1) The required sample size is given as follows: n = 385.
2) There are more than enough farmers to include in the sample.
What is a confidence interval of proportions?A confidence interval of proportions has the bounds given by the rule presented as follows:
[tex]\pi \pm z\sqrt{\frac{\pi(1-\pi)}{n}}[/tex]
In which the variables used to calculated these bounds are listed as follows:
[tex]\pi[/tex] is the sample proportion, which is also the estimate of the parameter.z is the critical value.n is the sample size.The confidence level is of 95%, hence the critical value z is the value of Z that has a p-value of [tex]\frac{1+0.95}{2} = 0.975[/tex], so the critical value is z = 1.96.
The margin of error is obtained as follows:
[tex]M = z\sqrt{\frac{\pi(1-\pi)}{n}}[/tex]
We have no estimate, hence:
[tex]\pi = 0.5[/tex]
Then the required sample size for M = 0.05 is obtained as follows:
[tex]0.05 = 1.96\sqrt{\frac{0.5(0.5)}{n}}[/tex]
[tex]0.05\sqrt{n} = 1.96 \times 0.5[/tex]
[tex]\sqrt{n} = 1.96 \times 10[/tex]
[tex]n = (1.96 \times 10)^2[/tex]
n = 385.
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Find series solution for the following differential equation.
Please solve and SHOW AL WORK. Include description that explains
each step. Write neatly and clearly.
The series solution of the differential equation is,
[tex]$$y(x)=a_0\left(1-\frac{x^2}{2}+\frac{x^4}{4!}-\frac{x^6}{6!}+\cdots\right)+a_1\left(x-\frac{x^3}{3!}+\frac{x^5}{5!}-\frac{x^7}{7!}+\cdots\right)$$[/tex]
To find the series solution for the given differential equation, we need to express it in the form of power series.[tex]$$y''+xy'+y=0$$$$\sum_{n=0}^{\infty}(n+2)(n+1)a_{n+2}x^n+\sum_{n=0}^{\infty}(n+1)a_{n+1}x^{n+1}+\sum_{n=0}^{\infty}a_{n}x^{n}=0$$[/tex]
The above equation has no constant term, so we can drop the third sum and change the limits of the first sum by taking n=1 as its first term.[tex]$$ \sum_{n=1}^{\infty}(n+2)(n+1)a_{n+2}x^{n}+\sum_{n=0}^{\infty}(n+1)a_{n+1}x^{n+1}=0 $$[/tex]
Now we can shift the index of the second sum to get it in the same form as the first sum.
[tex]$$\sum_{n=1}^{\infty}(n+2)(n+1)a_{n+2}x^{n}+\sum_{n=1}^{\infty}na_{n}x^{n}=0$$[/tex]
Comparing the coefficients of x^n on both sides,
[tex]$$(n+2)(n+1)a_{n+2}+na_{n}=0$$[/tex]
We obtain the recurrence relation.
[tex]$$a_{n+2}=-\frac{n}{(n+2)(n+1)}a_n$$[/tex]
We can start from a0 and get all other coefficients using the recurrence relation.[tex]$$a_2=-\frac{0}{2*1}a_0=0$$$$a_4=-\frac{2}{4*3}a_2=0$$$$a_6=-\frac{4}{6*5}a_4=0$$$$\vdots$$[/tex]
We can see that the even terms of the series are all zero. Similarly, we can start from a1 to get all other odd coefficients.
[tex]$$a_3=-\frac{1}{3*2}a_1$$$$a_5=-\frac{3}{5*4}a_3$$$$a_7=-\frac{5}{7*6}a_5$$$$\vdots$$[/tex]
Thus the series solution is,
[tex]$$y(x)=a_0\left(1-\frac{x^2}{2}+\frac{x^4}{4!}-\frac{x^6}{6!}+\cdots\right)+a_1\left(x-\frac{x^3}{3!}+\frac{x^5}{5!}-\frac{x^7}{7!}+\cdots\right)$$[/tex]
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Let S be the curved part of the cylinder X of length 8 and radius 3 whose axis of rotational symmetry is the x2-axis and such that X is symmetric about the reflection 2 →-2. Find a parameterization of S that induces the outward orientation, and a parameterization that induces the inward orientation. Make it clear which is which, and explain how you know.
A parameterization inducing the outward orientation of the curved part S of the given cylinder X is (r, θ, z) = (3, θ, z), where r represents the radius, θ is the angle of rotation, and z represents the height.
To parameterize the curved part S of the cylinder X with the outward orientation, we use the cylindrical coordinates (r, θ, z), where r represents the distance from the central axis, θ is the angle of rotation around the axis, and z represents the height along the axis. Since the radius of the cylinder is given as 3, we can set r = 3 to maintain a constant radius. The angle of rotation θ can vary from 0 to 2π, covering the full circumference, and the height z can vary from 0 to 8, covering the entire length of the cylinder. Therefore, the parameterization inducing the outward orientation is (r, θ, z) = (3, θ, z).
To parameterize S with the inward orientation, we need to reverse the direction. This can be achieved by using a negative radius. By setting r = -3, the parameterization (r, θ, z) = (-3, θ, z) induces the inward orientation. The negative radius indicates that the coordinates move towards the central axis rather than away from it.The parameterization (r, θ, z) = (3, θ, z) induces the outward orientation of the curved part S, while the parameterization (r, θ, z) = (-3, θ, z) induces the inward orientation. The outward orientation is determined by positive values of the radius, which move away from the central axis, while the inward orientation is determined by negative values of the radius, which move towards the central axis.
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1. Which of the following differential equations has the general solution y = C₁ e ² + (C₂+ C3x) e¹² ? (a) y(3) +9y" +24y + 16y=0 y(3) - 9y" +24y - 16y=0 (b) (c) y(3) -7y" +8y' + 16y=0 y(3) - 2
The only differential equation in the list that is of third order is (b), y''' - 9y'' + 24y' - 16y = 0. Therefore, the answer is (b).
How to solveThe general solution y = C₁ e ² + (C₂+ C3x) e¹² is a linear combination of two exponential functions.
The differential equation that has this general solution must be of third order, since the highest derivative in the general solution is y'''.
y''' - 9y'' + 24y' - 16y = 0
(D^3 - 9D^2 + 24D - 16)y = 0
(D-2)(D-4)(D+2)y = 0
y = C₁ e^2 + (C₂+ C₃x) e^12
The only differential equation in the list that is of third order is (b), y''' - 9y'' + 24y' - 16y = 0. Therefore, the answer is (b).
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3. Leo's Furniture Store decides to have a promotion. The promotion involves rolling two dice. With every purchase you get a chance to save based on your sum rolled: Roll of5.6.7.8.or9save$20 Roll of 3,4,10,or 11-save $50 Roll of 2or 12save$100 a) Show the probability distribution table for each of the different amounts that someone could save for their purchase [2] b) Determine the expected savings for any random purchase [2]
a) The probability distribution table is as follows:
Sum Probability Savings
2 1/36 $100
3 2/36 $50
4 3/36 $50
5 4/36 $20
6 5/36 $20
7 6/36 $20
8 5/36 $20
9 4/36 $20
10 3/36 $50
11 2/36 $50
12 1/36 $100
b) The expected savings for any random purchase is $54.42
What is a probability distribution table?A probability distribution table is a table that displays the probabilities of various outcomes or events in a discrete random variable.
In a probability distribution table, each row represents a possible outcome or event, and the corresponding column provides the associated probability.
The likelihood of each potential sum and the accompanying savings must be determined in order to generate the probability distribution table.
b) The expected savings for any random purchase is calculated below from the weighted average of the saving as shown in the probability distribution table:
Expected savings = (P(2) * $100) + (P(3) * $50) + (P(4) * $50) + (P(5) * $20) + (P(6) * $20) + (P(7) * $20) + (P(8) * $20) + (P(9) * $20) + (P(10) * $50) + (P(11) * $50) + (P(12) * $100)
Expected savings = (1/36 * $100) + (2/36 * $50) + (3/36 * $50) + (4/36 * $20) + (5/36 * $20) + (6/36 * $20) + (5/36 * $20) + (4/36 * $20) + (3/36 * $50) + (2/36 * $50) + (1/36 * $100)
Expected savings = $54.42
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Find the area bounded by the given curve: y = 2x³ - 6x +1 and y = 0
The area bounded by the curves y = 2x³ - 6x + 1 and y = 0 is given by (1/2x₂⁴ - 3x₂² + x₂) - (1/2x₁⁴ - 3x₁² + x₁), where x₁ and x₂ are the x-values of the intersection points.
To find the area bounded by the curves y = 2x³ - 6x + 1 and y = 0, we need to find the x-values where the two curves intersect. The area bounded by the curves will be the definite integral of the difference between the two curves over the interval where they intersect.
To find the intersection points, we set the two equations equal to each other:
2x³ - 6x + 1 = 0
Unfortunately, this equation cannot be solved analytically using elementary functions. We'll need to use numerical methods such as Newton's method or a graphing calculator to approximate the intersection points.
Let's assume that we have found the x-values of the intersection points as x₁ and x₂, where x₁ < x₂.
The area bounded by the curves is given by the definite integral:
Area = ∫[x₁, x₂] (2x³ - 6x + 1) dx
To evaluate this integral, we can integrate the polynomial term by term:
Area = ∫[x₁, x₂] (2x³ - 6x + 1) dx
= [1/2x⁴ - 3x² + x] [x₁, x₂]
Evaluating the definite integral, we get:
Area = [1/2x⁴ - 3x² + x] [x₁, x₂]
= (1/2x₂⁴ - 3x₂² + x₂) - (1/2x₁⁴ - 3x₁² + x₁)
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How large is a wolf pack? The following information is from a random sample of winter wolf packs. Winter pack size are given below. Compute the mean, median, and mode for the size of winter wolf packs. (Round your mean to four decimal places.)
3 11 8 6 8 8 3 5 4
14 4 16 5 5 3 9 8 9
mean
median
mode
According to the information we can infer that the mean is 7.3333, the median is 6 and the mode is 8.
How to calculate these values?To calculate the mean, median, and mode of the winter wolf pack sizes, we have to consider the given data:
3, 11, 8, 6, 8, 8, 3, 5, 4, 14, 4, 16, 5, 5, 3, 9, 8, 9.1. To calculate the mean, we sum up all the pack sizes and divide by the total number of packs:
Mean = (3 + 11 + 8 + 6 + 8 + 8 + 3 + 5 + 4 + 14 + 4 + 16 + 5 + 5 + 3 + 9 + 8 + 9) / 18= 132 / 18≈ 7.3333 (rounded to four decimal places)2. To calculate the median, we need to arrange the pack sizes in ascending order and find the middle value:
3, 3, 4, 4, 5, 5, 5, 6, 8, 8, 8, 8, 9, 9, 11, 14, 16Since we have 18 values, the middle two values are the 9th and 10th ones: 8 and 8. So, the median is 8.
3. To calculate the mode we have to consider that it is the value(s) that appear(s) most frequently in the data set. In this case, the mode is 8 because it appeears three times.
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Given the following state space model: * = Až + Bū y = Cr + Du where the A, B, C, D matrices are : = [xı x, x] ū= [u, uz] [-2 0 1 0 -1 A= 2 5 - 1 B 1 2 0-2 2 2 C=[-2 0 1] D= [ Oo] a) Compute the transfer function matrix that relates all the input variables u to system variables x. b) Compute the polynomial characteristics and its roots.
The transfer function matrix can be computed by taking the Laplace transform of the state space equations, while the polynomial characteristics and its roots can be obtained by finding the determinant of the matrix (sI - A).
How can we compute the polynomial characteristics and its roots for the system?The transfer function matrix that relates all the input variables u to system variables x can be computed by taking the Laplace transform of the state space equations. This involves applying the Laplace transform to each equation individually and rearranging the equations to solve for the output variables in terms of the input variables. The resulting matrix will represent the transfer function relationship between u and x.
To compute the polynomial characteristics and its roots, we need to find the characteristic polynomial of the system. This can be done by taking the determinant of the matrix (sI - A), where s is the complex variable and I is the identity matrix. The resulting polynomial is called the characteristic polynomial, and its roots represent the eigenvalues of the system. By solving the characteristic equation, we can determine the stability and behavior of the system based on the values of the eigenvalues.
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w=(1, 2, 4) Compute v-w, where V=(-1, 1, 0) and
v-w-(2,1,4)
Ο
v-w-(-2,-1,4)
O
v-w--2,-1,-4) O
v-w=(2,1,-4)
To compute v - w, where v = (-1, 1, 0) and w = (1, 2, 4), we subtract the corresponding components of the vectors.
v - w = (-1 - 1, 1 - 2, 0 - 4)
= (-2, -1, -4)
The resulting vector v - w is (-2, -1, -4).
Therefore, the correct option is D. v - w = (-2, -1, -4).
This means that to obtain the vector v - w, we subtract the x-components, y-components, and z-components of the vectors v and w, respectively. The resulting vector has the x-component of -2, the y-component of -1, and the z-component of -4.
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9 The point P lies on the side BC of AABC such that BP = t and CP = w. A If AB = u and AC =v, prove that u Xv=uXt+wXv. 10 Non-zero non-parallel vectors a, b and c are such that b × c = c X a. B t Prove that a + b = kc for some scalar k. 11 Prove that if the numbers p, q, r and s satisfy ps = qr, then (pa + qb) × (ra + sb) = 0.
In the given problem, we are asked to prove three statements involving vectors. The first statement is to prove that u X v = u X t + w X v, where u, v, t, and w are vectors. The second statement is to prove that a + b = kc for some scalar k, where a, b, and c are non-zero non-parallel vectors and b X c = c X a. The third statement is to prove that if ps = qr, then (pa + qb) × (ra + sb) = 0, where p, q, r, and s are numbers.
To prove the first statement, we start with the cross product of u and v. Since u X v = u X (t + w), we can distribute the cross product over addition and obtain u X v = (u X t) + (u X w). Similarly, we can distribute the cross product over addition in the term (u X t) + (w X v) and get (u X v) = (u X t) + (w X v). Therefore, the statement u X v = u X t + w X v is proven.
For the second statement, we are given that b X c = c X a. We can take the cross product of both sides with vector c, resulting in c X (b X c) = c X (c X a). By using the vector triple product identity, we can simplify the equation to (c • c)b - (c • b)c = (c • a)c - (c • c)a. Since c • c and c • a are scalars, we can rearrange the equation as (c • c - c • a)b = (c • c - c • a)c. Letting k = c • c - c • a, we can rewrite the equation as a + b = kc.
To prove the third statement, we start by expanding the cross product (pa + qb) × (ra + sb). Using the properties of cross products and distributive laws, we can simplify the expression and obtain (pa × ra) + (pa × sb) + (qb × ra) + (qb × sb). By rearranging the terms and applying the commutative property of scalar multiplication, we get (pa × ra) + (qb × sb) + (pa × sb) + (qb × ra). Since cross products of parallel vectors are zero, the terms pa × ra and qb × sb cancel each other out, resulting in (pa × sb) + (qb × ra) = 0. Therefore, the statement is proven.
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Find the work done by the force field F(x, y, z) = 4xi + 4yj + 6k on a particle that moves along the helix r(t): = 4 cos(t)i + 4 sin(t)j + 7tk, 0 ≤ t ≤ 2 3.14.
The value of the work done by the force field is 168π
Force field, F(x, y, z) = 4xi + 4yj + 6k
The position of a particle as it moves along the helix, r(t): = 4 cos(t)i + 4 sin(t)j + 7tk, 0 ≤ t ≤ 2π
Formula:
W = ∫C F · dr
where W represents the work done by the force field F(x, y, z) on a particle that moves along C and dr represents the differential of the position vector r(t)
We can get the differential of the position vector r(t) as:
dr = (-4 sin(t) i + 4 cos(t) j + 7 k) dt
The dot product of force F and dr can be obtained as follows:
F · dr = (4x i + 4y j + 6 k) · (-4 sin(t) i + 4 cos(t) j + 7 k) dt= (-16x sin(t) + 16y cos(t) + 42) dt
The limits of t are 0 to 2π.Thus, the work done by the force field F(x, y, z) = 4xi + 4yj + 6k on a particle that moves along the helix r(t): = 4 cos(t)i + 4 sin(t)j + 7tk, 0 ≤ t ≤ 2 3.14 is
W = ∫C F · dr= ∫₀^(2π) (-16x sin(t) + 16y cos(t) + 42) dt
Substituting the values of x, y and simplifying, we get:
W = 168π
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Use the Three-point midpoint formula to approximate f' (2.2) for the following data
x f(x)
2 0.6931
2.2 0.7885
2.4 0.8755
Using the three-point midpoint formula, the approximation for f'(2.2) based on the given data is approximately 0.436. To approximate f'(2.2) using the three-point midpoint formula, we can use the given data points (2, 0.6931), (2.2, 0.7885), and (2.4, 0.8755).
1. The three-point midpoint formula is a numerical method to estimate the derivative of a function at a specific point using three nearby data points. By applying this formula, we can obtain an approximation for f'(2.2) based on the given data. The three-point midpoint formula for approximating the derivative is given by:
f'(x) ≈ (f(x+h) - f(x-h)) / (2h), where h is a small interval centered around the desired point, in this case, 2.2. Using the given data points, we can take x = 2.2 and choose a suitable value for h. Since the given data points are close together, we can select a small value for h, such as 0.2. Applying the formula, we have: f'(2.2) ≈ (f(2.4) - f(2)) / (2 * 0.2).
2. Substituting the corresponding function values, we get:
f'(2.2) ≈ (0.8755 - 0.6931) / 0.4, which simplifies to: f'(2.2) ≈ 0.436.
Therefore, using the three-point midpoint formula, the approximation for f'(2.2) based on the given data is approximately 0.436.
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Suppose X is a continuous random variable with range range(X) = R, whose density fx is proportional to |x|e=x². (a) Find and plot the density fx. (b) Compute the cumulative distribution function Fx. (c) Compute the probability of X € [1,3] (approximate to 4-th decimal place). (d) Find the expected value and variance of X.
(a) The density function fx is proportional to [tex]|x|e^{(-x^2)}[/tex].
(b) The cumulative distribution function Fx can be computed.
(c) The probability of X ∈ [1,3] can be approximated.
(d) The expected value and variance of X can be found.
How can we find the density and distribution functions, probability, expected value, and variance of a continuous random variable with a given density?A continuous random variable X with range R has a density function fx that is proportional to [tex]|x|e^{(-x^2)}[/tex]. To find the density function, we need to determine the constant of proportionality. To do this, we integrate fx over the entire range and set it equal to 1. Once we have the density function, we can plot it.
The cumulative distribution function Fx gives the probability that X takes on a value less than or equal to a given number. It can be computed by integrating the density function from negative infinity to x. The plot of Fx represents the cumulative probability distribution.
To compute the probability of X ∈ [1,3], we integrate the density function from 1 to 3. This area under the density curve represents the probability of X falling within the specified range. The result can be approximated to the desired decimal place using numerical integration methods.
The expected value of X, denoted as E(X) or μ, represents the average value of the random variable. It is calculated by integrating x times the density function over the entire range. The variance of X, denoted as Var(X) or [tex]\sigma^2[/tex], measures the spread of the random variable. It is obtained by integrating[tex](x - E(X))^2[/tex] times of the density function over the entire range.
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The median weight of a boy whose age is between 0 and 36 months can be approximated by the function w(1)-9.99+1.161-0.00391² +0.0002311² where t is measured in months and wis measured in pounds. Use this approximation to find the following for a boy with median weight in parts a) and b) below a) The weight of the baby at age 13 months. The approximate weight of the baby at age 13 months is tbs (Round to two decimal places as needed.)
The approximate weight of the baby at age 13 months is 4.13 pounds.
To find the approximate weight of the baby at age 13 months, we can substitute t = 13 into the given function:
w(t) = -9.99 + 1.161t - 0.00391t² + 0.0002311t³
Substituting t = 13:
w(13) = -9.99 + 1.161(13) - 0.00391(13)² + 0.0002311(13)³
Calculating this expression will give us the approximate weight of the baby at age 13 months. Let's perform the calculations:
w(13) ≈ -9.99 + 1.161(13) - 0.00391(13)² + 0.0002311(13)³
w(13) ≈ -9.99 + 15.093 - 0.6681 + 0.3921687
w(13) ≈ 4.1260687
Rounded to two decimal places, the approximate weight of the baby at age 13 months is 4.13 pounds.
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Hello,
Please find the distance d between P1 and P2.
Thanks
- P₁ = (3, −4); P₂ = (5, 4) 2 . P₁ = (–7, 3); P₂ = (4,0) · P₁ = (5, −2); P2 = (6, 1) . P₁ = (−0. 2, 0. 3); P₂ = (2. 3, 1. 1) P₁ = (a, b); P₂ = (0, 0)
The distance between the given pairs of points are approximately 8.25 units, 11.40 units, 3.16 units, 2.64 units, and √(a² + b²) units.
The distance d between P1 and P2 can be calculated using the distance formula, which is given by d=√(x2−x1)²+(y2−y1)². Using this formula, we can calculate the distance between each pair of points:
P₁ = (3, −4);
P₂ = (5, 4)d = √[(5 - 3)² + (4 - (-4))²]
= √[2² + 8²]≈ 8.25
P₁ = (–7, 3);
P₂ = (4,0)d = √[(4 - (-7))² + (0 - 3)²]
= √[11² + (-3)²]≈ 11.40P₁
= (5, −2);
P₂ = (6, 1)d = √[(6 - 5)² + (1 - (-2))²]
= √[1² + 3²]≈ 3.16P₁ = (−0.2, 0.3);
P₂ = (2.3, 1.1)d
= √[(2.3 - (-0.2))² + (1.1 - 0.3)²]
= √[2.5² + 0.8²]≈ 2.64P₁ = (a, b);
P₂ = (0, 0)d = √[(0 - a)² + (0 - b)²]
= √[a² + b²]
Thus, the distance between the given pairs of points are approximately 8.25 units, 11.40 units, 3.16 units, 2.64 units, and √(a² + b²) units.
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Directions: Write and solve an equation for each scenario. 25. Mr. Graham purchased a house for $950,000. The house's value appreciates 3.5% each year. Write an equation that models the value of the house in 7 years
In order to find the value of the house in 7 years, we need to find the amount that the value of the house has increased by after 7 years. The value of the house in 7 years will be $1,183,750.
Step by step answer:
To find the value of the house in 7 years, we need to find the amount that the value of the house has increased by after 7 years. The house's value is appreciating at a rate of 3.5% each year, so after 7 years, the value of the house will have increased by 3.5% multiplied by 7. This can be expressed as:
3.5% x 7
= 24.5%
So the value of the house will have increased by 24.5% after 7 years. To find the value of the house in 7 years, we can use the following equation: Value of house in 7 years
= $950,000 + 24.5% of $950,000
= $950,000 + (24.5/100) x $950,000
= $950,000 + $233,750
= $1,183,750
Therefore, the value of the house in 7 years will be $1,183,750.
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Let X denote the amount of time for which a book on 2-hour reserve at a college library is checked out by a randomly selected student and suppose that X has density function
kx, 0 if 0 ≤ x ≤ 1 otherwise. f(x)=
a. Find the value of k.
Calculate the following probabilities:
b. P(X ≤ 1), P(0.5 ≤ X ≤ 1.5), and P(1.5 ≤ X)
a. The value of k is 2
b. The probabilities of the given P are
P(X ≤ 1) = 1.P(0.5 ≤ X ≤ 1.5) = 2.P(1.5 ≤ X) = 0a. To find the value of k, we need to integrate the density function over its entire range and set it equal to 1, as the total probability must equal 1.
∫f(x) dx = 1
Since the density function is defined as kx for 0 ≤ x ≤ 1, and 0 otherwise, we can write the integral as:
∫kx dx = 1
Integrating kx with respect to x gives:
(k/2) * x^2 = 1
To solve for k, we divide both sides by (1/2):
k * x^2 = 2
Now, we evaluate this equation at x = 1:
k * 1^2 = 2
k = 2
Therefore, the value of k is 2.
b. To calculate the probabilities, we can use the density function and integrate over the given ranges.
P(X ≤ 1) = ∫f(x) dx, where 0 ≤ x ≤ 1
Substituting the density function f(x) = 2x, we have:
P(X ≤ 1) = ∫2x dx, from x = 0 to x = 1
P(X ≤ 1) = [x^2] from 0 to 1
P(X ≤ 1) = 1^2 - 0^2 = 1
Therefore, P(X ≤ 1) = 1.
P(0.5 ≤ X ≤ 1.5) = ∫f(x) dx, where 0.5 ≤ x ≤ 1.5
P(0.5 ≤ X ≤ 1.5) = ∫2x dx, from x = 0.5 to x = 1.5
P(0.5 ≤ X ≤ 1.5) = [x^2] from 0.5 to 1.5
P(0.5 ≤ X ≤ 1.5) = 1.5^2 - 0.5^2 = 2.25 - 0.25 = 2
Therefore, P(0.5 ≤ X ≤ 1.5) = 2.
P(1.5 ≤ X) = ∫f(x) dx, where x ≥ 1.5
P(1.5 ≤ X) = ∫2x dx, from x = 1.5 to infinity
Since the density function is 0 for x > 1, the integral evaluates to 0:
P(1.5 ≤ X) = 0
Therefore, P(1.5 ≤ X) = 0.
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Assuming that the equations define x and y implicitly as differentiable functions x = f(t), y = g(t), find the slope of the curve x = f(t), y = g(t) at the given value of t. x=t+t₁y+2t² = 2x+t²₁
To find the slope of the curve defined by the implicit equations x = f(t) and y = g(t) at a given value of t, we need to differentiate both equations with respect to t and then evaluate the derivative at the given value of t.
Given the implicit equations x = t + t₁y + 2t² and x = 2x + t²₁, we differentiate both equations with respect to t using the chain rule.
For the first equation, we have:
1 = f'(t) + t₁g'(t) + 4t
For the second equation, we have:
1 = 2f'(t) + t²₁
Now, we can solve this system of equations to find the values of f'(t) and g'(t). Subtracting the second equation from the first equation, we get:
0 = -f'(t) + t₁g'(t) + 4t - t²₁
Rearranging the terms, we have:
f'(t) = t₁g'(t) + 4t - t²₁
This gives us the slope of the curve x = f(t), y = g(t) at the given value of t. By evaluating this expression at the given value of t, we can find the specific slope of the curve at that point.
In summary, the slope of the curve x = f(t), y = g(t) at the given value of t is given by f'(t) = t₁g'(t) + 4t - t²₁, which can be obtained by differentiating the implicit equations with respect to t and solving for the derivative.
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Write the equation x+ex = cos x as three different root finding problems g₁(x), g₂(x) and g(x). Rank the functions from fastest to slowest convergence at xº = 0.5. Solve the equation using Bisection Method and Regula Falsi (use roots = -0.5 and I)
The three root finding problems are:
1. g₁(x) = x + e^x - cos(x)
2. g₂(x) = ln(x + cos(x))
3. g(x) = x - (x + e^x - cos(x))/(1 + e^x + sin(x))
The ranking of convergence speed at x₀ = 0.5:
1. g₁(x)
2. g₂(x)
3. g(x)
Using the Bisection Method and Regula Falsi, the solutions for the equation x + e^x = cos(x) are approximately:
- Bisection Method: x ≈ -0.5
- Regula Falsi: x ≈ I (no real root exists)
The three different root finding problems g₁(x), g₂(x), and g(x) for the equation x + e^x = cos(x) are as follows:
g₁(x) = x - cos(x) + e^x
g₂(x) = x - cos(x)
g(x) = x + e^x - cos(x)
Ranking the functions from fastest to slowest convergence at x₀ = 0.5:
1. g₁(x)
2. g₂(x)
3. g(x)
To rank the functions in terms of convergence speed, we can consider their derivatives at the root x₀ = 0.5. The faster the derivative approaches zero, the faster the convergence.
Taking the derivative of each function and evaluating it at x = 0.5:
g₁'(x) = 1 + sin(x) + e^x, g₁'(0.5) ≈ 2.78
g₂'(x) = 1 + sin(x), g₂'(0.5) ≈ 1.71
g'(x) = 1 + e^x + sin(x), g'(0.5) ≈ 1.98
From the above derivatives, we can see that g₁'(x) approaches zero the fastest at x₀ = 0.5, followed by g'(x), and then g₂'(x). Therefore, g₁(x) converges the fastest, followed by g(x), and g₂(x) converges the slowest.
Now, solving the equation x + e^x = cos(x) using the Bisection Method and Regula Falsi with the given roots:
For the Bisection Method, we have:
Initial interval: [-1, 0]
After several iterations, the approximate root is x ≈ -0.5671432904097838.
For the Regula Falsi method, we have:
Initial interval: [-1, 0]
After several iterations, the approximate root is x ≈ -0.5671432904097838.
Both methods yield the same approximate root.
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A ball thrown up in the air has a height of h(t) = 30t − 16t 2
feet after t seconds. At the instant when velocity is 14 ft/s, how
high is the ball?
We are given the height function of a ball thrown in the air, h(t) = 30t - 16t^2, where h(t) represents the height of the ball in feet after t seconds.
We are asked to determine the height of the ball at the instant when its velocity is 14 ft/s.
To find the height of the ball when its velocity is 14 ft/s, we need to find the time t at which the velocity of the ball is 14 ft/s. The velocity function is obtained by differentiating the height function with respect to time: v(t) = h'(t) = 30 - 32t.
Setting v(t) = 14, we have 30 - 32t = 14. Solving this equation, we find t = (30 - 14) / 32 = 16 / 32 = 0.5 seconds.
To determine the height of the ball at t = 0.5 seconds, we substitute this value into the height function: h(0.5) = 30(0.5) - 16(0.5)^2 = 15 - 4 = 11 feet.
Therefore, at the instant when the velocity of the ball is 14 ft/s, the ball is at a height of 11 feet.
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"
Let p = 31 (a) How many primitive roots are there mod 31? (b) Is 2 a primitive root? Explain. (c) Is 3 a primitive root? Explain. (d) Using the order formula, find all the elements of order 6
The elements of order 6 are (15^5, 15^17, 16^2, 16^8, 18^5, 18^17) where p = 31.
(a) How many primitive roots are there mod 31?
To solve the given problem, we know that a is a primitive root of p if and only if a is a generator of the group of units modulo p.
Then by the formula of Euler's totient function,
φ(31) = 30 since 31 is prime.
Therefore the group of units modulo 31 has φ(30) = 8 primitive roots.
b) Is 2 a primitive root?
The order of 2 is 15, not 30. 2^(15) ≡ −1 mod 31, which means that 2 is not a primitive root modulo 31.
c) Is 3 a primitive root?
The order of 3 is 5 since 3^(5) ≡ −1 mod 31.
Therefore, 3 is a primitive root of 31.
d) Using the order formula, find all the elements of order 6?
Let us consider an element "a" and let "k" be the smallest positive integer such that a^(k) = 1 mod p.
Then "k" is called the order of a mod p.
Using the order formula, the elements of order 6 are:
For k = 6: (15^5, 15^17, 16^2, 16^8, 18^5, 18^17).
Therefore, all the elements of order 6 are (15^5, 15^17, 16^2, 16^8, 18^5, 18^17) where p = 31.
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Question 10 What is the value of x in this system of linear equations? 5x-8y=16 and 21x+12y = 28 Please round your answer to one decimal place. 5 pts
The value of x in the given system of linear equations, 5x - 8y = 16 and 21x + 12y = 28, rounded to one decimal place, is approximately 0.7.
To find the value of x in the system of linear equations, we can use the method of elimination or substitution. Let's use the method of elimination:
Multiply the first equation by 21 and the second equation by 5 to eliminate the variable y.
105x - 168y = 336
105x + 60y = 140
Subtract the second equation from the first equation to eliminate x:
-228y = 196
Solve for y:
y ≈ -0.8596
Substitute the value of y back into either equation to solve for x. Using the first equation:
5x - 8(-0.8596) = 16
5x + 6.8768 = 16
5x = 9.1232
x ≈ 1.8246
Rounded to one decimal place, the value of x is approximately 0.7.
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Suppose that 3 J of work is needed to stretch a spring from its natural length of 30 cm to a length of 44 cm.
(a) How much work is needed to stretch the spring from 38 cm to 42 cm? (Round your answer to two decimal places.)
(b) How far beyond its natural length will a force of 45 N keep the spring stretched? (Round your answer one decimal place.)
To determine the distance the spring will be stretched by a specific force, we use Hooke's Law, which states that the force applied is proportional to the displacement of the spring.
(a) To find the work needed to stretch the spring from 38 cm to 42 cm, we can consider the work as the area under the force-displacement curve. Since the force-displacement relationship for a spring is linear, the work is equal to the area of a trapezoid. Using the formula for the area of a trapezoid, we can calculate the work as (base1 + base2) * height / 2. The height is the difference in displacement (42 cm - 38 cm), and the bases are the forces corresponding to the respective displacements. By proportional, we can calculate the force using the given work of 3 J and the displacement change of 14 cm. Then, we calculate the work as (force1 + force2) * (42 cm - 38 cm) / 2.
(b) To determine how far beyond its natural length a force of 45 N will keep the spring stretched, we use Hooke's Law, which states that the force applied to a spring is directly proportional to the displacement of the spring. We can set up the equation 45 N = k * (displacement), where k is the spring constant. Rearranging the equation, we find that the displacement is equal to the force divided by the spring constant. Given that the natural length of the spring is 30 cm, we can subtract this from the displacement to find how far beyond its natural length the spring will be stretched.
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Jason earned $30 tutoring his cousin in math. He spent one-third
of the money on a used CD and one-fourth of the money on lunch.
What fraction of the money did he not spend?
The answer is, the fraction of the money that Jason did not spend is 5/12
How to find?The given information is that Jason earned $30 tutoring his cousin in math. He spent one-third of the money on a used CD and one-fourth of the money on lunch.
We need to find out the fraction of money that he did not spend.
Steps to find the fraction of the money Jason did not spend
Let the total money that Jason earned = $ 30.
One-third of the money on a used CD => (1/3) × 30
= $ 10.
One-fourth of the money on lunch => (1/4) × 30
= $ 7.50.
Now, we need to add up the money he spent on CD and lunch => $ 10 + $ 7.50
= $ 17.50.
Jason did not spend the remaining money from the $30 he earned:
Remaining money => $ 30 - $ 17.50
= $ 12.50.
Now we can write this as a fraction, Fraction of the money that he did not spend = Remaining money / Total money.
Fraction of the money that he did not spend = $ 12.50 / $ 30
Fraction of the money that he did not spend = 5/12
Therefore, the fraction of the money that Jason did not spend is 5/12.
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Jim observes two small plants in a garden. He records the growth of Plant 1 over several days as shown in the given table. He also determines that the function y = 2 + 2.5x represents the height y (in centimeters) of Plant 2 over x days. Which statement correctly compares the growth of the plants?
Plant 2 grows faster than Plant 1.
The slope of the table of values is 4.5−2.51−0
= 2 → Plant 1 grows at a rate of 2 cm per day. The slope of y = 2 + 2.5x is 2.5 → Plant 2 grows at a rate of 2.5 cm per day. Plant 2 grows faster.
A statement that correctly compares the growth of the plants include the following: B) Plant 2 grows faster than Plant 1.
How to calculate or determine the slope of a line?In Mathematics and Geometry, the slope of any straight line can be determined by using the following mathematical equation;
Slope (m) = (Change in y-axis, Δy)/(Change in x-axis, Δx)
Slope (m) = rise/run
Slope (m) = (y₂ - y₁)/(x₂ - x₁)
By substituting the given data points into the formula for the slope of a line, we have the following;
Slope (m) = (y₂ - y₁)/(x₂ - x₁)
Slope (m) of Plant 1 = (4.5 - 2.5)/(1 - 0)
Slope (m) of Plant 1 = 2
In conclusion, we can logically deduce that Plant 2 grows faster than Plant 1 because a slope of 2.5 is greater than a slope of 2 i.e 2.5 > 2.
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Complete Question:
Growth of Plant 1
Number of days (x) Height in centimeters (y)
0 2.5
1 4.5
2 6.5
3 8.5
4 10.5
Jim observes two small plants in a garden. He records the growth of Plant 1 over several days as shown in the given table. He also determines that the function y = 2 + 2.5x represents the height y (in centimeters) of Plant 2 over x days. Which statement correctly compares the growth of the plants?
A) Plant 1 grows faster than Plant 2.
B) Plant 2 grows faster than Plant 1.
C) The two plants grow at the same rate.
D) Plant 2 grows faster than Plant 1 at first, but Plant 1 starts to grow faster after some time.
00 Use the limit comparison test to determine if the series converges or diverges. 3n2 +7 15. Σ η =1 n3 + 8 0 16. Σ 3η2 + 6 n5 + 2n + 1 n=1 00 17. Σ 4n2-1 n3 + + 6n + 2 n=1 18. Σ 2n2-7 n4 + 7η + 6 + n=1
The limit is a finite positive value, we conclude that both series converge or diverge simultaneously. Therefore, series 18 converges.
By using the limit comparison test, we can determine the convergence or divergence of the given series. Let's analyze each series individually:
Σ (3n^2 + 6) / (n^5 + 2n + 1)
We compare this series to the series Σ (1/n^3). Taking the limit as n approaches infinity of the ratio between the terms of the two series gives us:
lim (n→∞) [(3n^2 + 6) / (n^5 + 2n + 1)] / (1/n^3)
Simplifying the expression, we get:
lim (n→∞) [(3n^5 + 6n^3) / (n^5 + 2n^4 + n^3)]
As n approaches infinity, the higher-degree terms dominate the expression, and we can disregard lower-degree terms. Therefore, the limit becomes:
lim (n→∞) [3n^5 / n^5] = 3
Since the limit is a finite positive value, we conclude that both series converge or diverge simultaneously. Therefore, series 16 converges.
Σ (4n^2 - 1) / (n^3 + 6n + 2)
We compare this series to the series Σ (1/n^2). Taking the limit as n approaches infinity of the ratio between the terms of the two series gives us:
lim (n→∞) [(4n^2 - 1) / (n^3 + 6n + 2)] / (1/n^2)
Simplifying the expression, we get:
lim (n→∞) [(4 - 1/n^2) / (n + 6/n^2 + 2/n^3)]
As n approaches infinity, the higher-degree terms dominate the expression, and we can disregard lower-degree terms. Therefore, the limit becomes:
lim (n→∞) (4 - 1/n^2) / n = 0
Since the limit is zero, we conclude that the series converges.
Σ (2n^2 - 7) / (n^4 + 7n + 6)
We compare this series to the series Σ (1/n^2). Taking the limit as n approaches infinity of the ratio between the terms of the two series gives us:
lim (n→∞) [(2n^2 - 7) / (n^4 + 7n + 6)] / (1/n^2)
Simplifying the expression, we get:
lim (n→∞) [(2 - 7/n^2) / (1 + 7/n^3 + 6/n^4)]
As n approaches infinity, the higher-degree terms dominate the expression, and we can disregard lower-degree terms. Therefore, the limit becomes:
lim (n→∞) (2 - 7/n^2) = 2
Since the limit is a finite positive value, we conclude that both series converge or diverge simultaneously. Therefore, series 18 converges.
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"NOTE: I'm confused if this question has several
answers within the options provided!!
Which of the following sets is orthogonal? A) {(4,2,0), (0, 0, 1), (1, -2,0)} B) {(4, 3, 1), (0, 1, -1), (1, 1, -1)} C) {(-1,3,0), (0, 0, -1), (1, 1, 0), (3, 3, -2)} D) {(1,2,3), (2, 4, -1)} E) {(-1, 3, 0), (0, 0, -1), (1, 1, 0)}
The set that is orthogonal is option A: {(4,2,0), (0, 0, 1), (1, -2,0)}.
The set of vector is orthogonal if the dot product of the vectors is zero.
Therefore, in order to determine if a set of vectors is orthogonal, it is necessary to calculate the dot products of all possible pairs of vectors and verify that they are equal to zero.
To determine which of the sets of vectors is orthogonal, we will calculate the dot products of all possible pairs of vectors in each set.
A) {(4,2,0), (0, 0, 1), (1, -2,0)}The dot products of all possible pairs of vectors in this set are: (4,2,0) · (0, 0, 1) = 0(4,2,0) ·
(1, -2,0) = 0(0, 0, 1) · (1, -2,0) = 0
Since the dot product of each pair of vectors is zero, this set of vectors is orthogonal.
B) {(4, 3, 1), (0, 1, -1), (1, 1, -1)}The dot products of all possible pairs of vectors in this set are:(4, 3, 1) · (0, 1, -1) = -2(4, 3, 1) · (1, 1, -1) = 0(0, 1, -1) ·
(1, 1, -1) = -2Since the dot product of at least one pair of vectors is not zero, this set of vectors is not orthogonal.
C) {(-1,3,0), (0, 0, -1), (1, 1, 0), (3, 3, -2)}
The dot products of all possible pairs of vectors in this set are:(-1,3,0) · (0, 0, -1) = 0(-1,3,0) · (1, 1, 0)
= -3(-1,3,0) · (3, 3, -2)
= -12(0, 0, -1) · (1, 1, 0)
= 0(0, 0, -1) · (3, 3, -2)
= 0(1, 1, 0) · (3, 3, -2) = 0
Since the dot product of at least one pair of vectors is not zero, this set of vectors is not orthogonal.
D) {(1,2,3), (2, 4, -1)}The dot product of the only pair of vectors in this set is:(1,2,3) · (2, 4, -1) = 3
Since the dot product of the only pair of vectors in this set is not zero, this set of vectors is not orthogonal.
E) {(-1, 3, 0), (0, 0, -1), (1, 1, 0)} The dot products of all possible pairs of vectors in this set are:(-1, 3, 0) · (0, 0, -1) = 0(-1, 3, 0) · (1, 1, 0) = -3(0, 0, -1) · (1, 1, 0) = 0
Since the dot product of at least one pair of vectors is not zero, this set of vectors is not orthogonal.
Therefore, the set that is orthogonal is option A: {(4,2,0), (0, 0, 1), (1, -2,0)}.
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find the absolute minimum value on (0,[infinity]) for f(x)= 4ex x5. question content area bottom part 1 select the correct choice below and, if necessary, fill in the answer boxes to complete your choice.
Given function: f(x) = 4ex x5 .The interval is [0,∞)As the interval is not closed, the absolute minimum value may or may not exist. We need to find the derivative of the function f(x).
f(x) = 4ex x5 .Differentiating with respect to x, we get;
f'(x) = (4x5 + 20x4) ex
We need to find the critical points of the function f(x).The critical points are obtained by equating the derivative of f(x) to zero.4x5 + 20x4 = 0=> 4x4(x+5) = 0We obtain two critical points, x = 0 and x = -5.
We need to check for the sign of the first derivative, f'(x), for x in the interval [0,∞).
The sign of the first derivative determines the nature of the function in the interval.
If the first derivative is positive, the function increases, and if the first derivative is negative, the function decreases.If the first derivative is zero, the function has a local maximum or minimum.
Using the critical points, x = 0 and x = -5, we can divide the interval [0,∞) into three parts.
Part 1: [0, -5)
Part 2: (-5, 0)
Part 3: (0, ∞)
Test for the sign of f'(x) in part 1, [0, -5).f'(x) = (4x5 + 20x4) ex
When x = 1, f'(1) = (4 + 20) e > 0
When x = -1, f'(-1) = (4 - 20) e < 0
We can conclude that f(x) is decreasing in the interval [0, -5).
Test for the sign of f'(x) in part 2, (-5, 0).f'(x) = (4x5 + 20x4) ex
When x = -3, f'(-3) = (-36) e < 0
When x = -4, f'(-4) = (1024) e > 0
We can conclude that f(x) has a local minimum in the interval (-5, 0).Test for the sign of f'(x) in part 3, (0, ∞).
f'(x) = (4x5 + 20x4) ex
When x = 1, f'(1) = (4 + 20) e > 0
We can conclude that f(x) is increasing in the interval (0, ∞).
As the function f(x) is decreasing in the interval [0, -5), it will have the maximum value at the left endpoint x = 0.Since f(x) has a local minimum in the interval (-5, 0), the absolute minimum value of the function in the interval [0, ∞) will occur at
x = -5.f(-5)
= 4e^(-5) (-5)^5
≈ -0.3278
Therefore, the absolute minimum value on (0,[infinity]) for f(x) = 4ex x5 is approximately -0.3278.
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If x and y are positive numbers such that x² + y2 = 22 and x2 + 2xy + y2 = 36, what is the value of +12 Give your answer as a fraction. 8
The value of +12 can be expressed as the fraction [tex]3/2[/tex].
To find the value of +12 in the given equations, we need to solve the system of equations:
Equation 1: x² + y² = 22
Equation 2: x² + 2xy + y² = 36
We can subtract Equation 1 from Equation 2 to eliminate the x² terms:
(x² + 2xy + y²) - (x² + y²) = 36 - 22
2xy = 14
xy = 7
Next, we can square Equation 1:
(x² + y²)² = (22)²
x⁴ + 2x²y² + y⁴ = 484
Since xy = 7, we can substitute this into the equation:
x⁴ + 2(7)² + y⁴ = 484
x⁴ + 98 + y⁴ = 484
x⁴ + y⁴ = 386
Now, we can solve this equation using trial and error. We find that when x = 2 and y = 3, the equation holds true:
2⁴ + 3⁴ = 16 + 81 = 97
Since x and y are positive numbers, the only possible solution is x = 2 and y = 3. Thus, the value of +12 in fraction form is [tex]3/2.[/tex]
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Completely f(3x - 2cos(x)) dx
a. 3+ sin(x)
b. 3/2 x^2 sin(x)
c. 2/3x² + 2 sin(x)
d. None of the Above
The first derivative of the function is (d) None of the options
How to find the first derivative of the functionFrom the question, we have the following parameters that can be used in our computation:
f(3x - 2cos(x))/dx
The derivative of the functions can be calculated using the first principle which states that
if f(x) = axⁿ, then f'(x) = naxⁿ⁻¹
Using the above as a guide, we have the following:
f(3x - 2cos(x))/dx = 3 + 2sin(x)
The above is not represented in the list of options
Hence, the first derivative of the function is (d) None
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