The absolute minimum value of the function is -4390, which occurs at x = -3, and the absolute maximum value of the function is 15620, which occurs at x = 5.
To find the absolute maximum and minimum values of the function f(x)=5x^7−7x^5−5 on the interval [−3,5], we need to evaluate the function at the endpoints of the interval and at any critical points in between.
First, let's find the derivative of the function f(x):
f'(x) = 35x^6 - 35x^4
To find the critical points, we need to solve for f'(x) = 0:
35x^6 - 35x^4 = 0
35x^4(x^2 - 1) = 0
x = 0, ±1
Next, we evaluate f(x) at the endpoints and critical points:
f(-3) = -4390
f(0) = -5
f(1) = -6
f(5) = 15620
Therefore, the absolute minimum value of the function is -4390, which occurs at x = -3, and the absolute maximum value of the function is 15620, which occurs at x = 5.
In summary, the absolute minimum value of f(x) on the interval [-3,5] is -4390 and it occurs at x = -3. The absolute maximum value of f(x) on the interval [-3,5] is 15620 and it occurs at x = 5.
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let abcd be a parallelogram. prove: abcd is a rectangle iff ac = bd
We have shown that a parallelogram ABCD is a rectangle if and only if AC = BD.
What is triangle?
A triangle is a three-sided polygon with three angles. It is a fundamental geometric shape and is often used in geometry and trigonometry.
To prove that a parallelogram ABCD is a rectangle if and only if AC = BD, we need to show two things:
If ABCD is a rectangle, then AC = BD.
If AC = BD, then ABCD is a rectangle.
Proof:
1. Assume that ABCD is a rectangle. This means that all angles of the parallelogram are right angles. Let's draw diagonal AC and BD, which divide the rectangle into four right triangles (ABC, BCD, ACD, and ABD). Since the opposite sides of a parallelogram are congruent, we have AB = CD and AD = BC. Therefore, triangles ABD and ACD are congruent (by side-angle-side) and have the same hypotenuse AD. This means that their legs are congruent: AB = CD and BD = AC. Since AB = CD, we have AC + BD = AD + AD = 2AD. But since ABCD is a rectangle, we know that AC = AD and BD = AD. Therefore, AC + BD = 2AD = 2AC = 2BD. So AC = BD.
2. Now assume that AC = BD. We need to prove that ABCD is a rectangle. Let's draw diagonal AC and BD again. Since AC = BD, the two diagonals divide the parallelogram into four congruent triangles (ABC, ACD, BCD, and ABD). Therefore, each of these triangles has a right angle, since the sum of their angles is 180 degrees. Since angle BCD and angle ACD are adjacent angles around a straight line, they add up to 180 degrees, so they are also right angles.
Therefore, we have shown that a parallelogram ABCD is a rectangle if and only if AC = BD.
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Researchers measured the percent body fat and the preferred amount of salt (percent weight/volume) for several children. Here are data for seven children:
Salt pct body fat
0.2 20
0.3 30
0.4 22
0.5 30
0.6 38
0.8 23
1.1 30
Use your calculator or software: The correlation between percent body fat and preferred amount of salt is about
A. r = 0.3
B. r = 0.8
C. r = 0.08
The answer is: A. r = 0.3, indicating a weak positive correlation between percent body fat and preferred amount of salt.
What is correlation coefficient between percent body fat ?The correct answer is A. r = 0.3.
Correlation coefficient (r) is a statistical measure that indicates the strength and direction of a linear relationship between two variables.
It ranges from -1 to 1, where 1 indicates a perfect positive correlation, -1 indicates a perfect negative correlation, and 0 indicates no correlation.
In this case, a correlation coefficient of 0.3 indicates a weak positive correlation between percent body fat and preferred amount of salt.
This means that as the preferred amount of salt increases, there is a
slight tendency for percent body fat to also increase, but the relationship is not very strong.
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Given the equation for the Total of Sum of Squares, solve for the Sum of Squares Due to Error.
SST=SSR+SSE
Select the correct answer below:
SSE=SST+SSR
SSE=SST−SSR
SSE=SSR−SST
For the equation of Total of Sum of Squares, the correct equation for Sum of Squares Due to Error is Option (b): SSE=SST−SSR.
What is an equation?
A mathematical definition of an equation is a claim that two expressions are equal when they are joined by the equals sign ("=").
In the equation SST = SSR + SSE, SST represents the total sum of squares, SSR represents the sum of squares due to regression, and SSE represents the sum of squares due to error.
To solve for SSE, we can rearrange the equation to get SSE = SST - SSR.
This means that the sum of squares due to error is equal to the total sum of squares minus the sum of squares due to regression.
In other words, SSE represents the variation in the data that cannot be explained by the regression model, while SSR represents the variation that can be explained by the regression model.
Therefore, the correct option is SSE = SST - SSR.
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Reflect the point (0, -9) across the y-axis
Answer:
(0,-9)
Step-by-step explanation:
When you're on the y-axis, the x-coordinate is 0. In the point (0,-9), x=0 and y=9. Reflecting it across the y axis wont do anything because x is so it is (0,-9)
Let B = {b, b2.b3} be a basis for vector space V. Let T:V+ V be a linear transformation with the following properties. T(61) = 7b, -3b2. T(62) = b; -5b2. T(63) = -2b2 Find [T). the matrix for T relative to B. ITIB
Answer: since [B]^-1[B] = I.
Step-by-step explanation:
To find the matrix for T relative to B, we need to find the coordinates of the vectors T(b), T(b^2), and T(b^3) with respect to the basis B.
We have:
T(b) = 6T(b^2) + 1T(b^3) = b, -5b^2
T(b^2) = 1T(b^2) + 0T(b^3) = 7b, -3b^2
T(b^3) = 0T(b^2) - 2T(b^3) = 0, 4b^2
To find the matrix [T], we write the coordinates of T(b), T(b^2), and T(b^3) as columns:
[T] = [b, 7b, 0; -5b^2, -3b^2, 4b^2]
To check this matrix, we can apply it to the basis vectors and see if we get the same coordinates as the vectors T(b), T(b^2), and T(b^3):
[T][b] = [b, 7b, 0][1; 0; 0] = [b; -5b^2]
[T][b^2] = [b, 7b, 0][0; 1; 0] = [7b; -3b^2]
[T][b^3] = [b, 7b, 0][0; 0; 1] = [0; 4b^2]
These are the same as the coordinates we found for T(b), T(b^2), and T(b^3), so our matrix [T] is correct.
To find ITIB, we first need to find the inverse of the matrix [B] whose columns are the basis vectors b, b^2, and b^3. We can do this by row reducing the augmented matrix [B | I]:
[1 0 0 | 1 0 0]
[0 1 0 | 0 1 0]
[0 0 1 | 0 0 1]
So [B] is already in reduced row echelon form, and its inverse is just I:
[B]^-1 = [1 0 0; 0 1 0; 0 0 1]
Therefore,
ITIB = [B]^-1[T][B] = [T]
since [B]^-1[B] = I.
Find a general solution for the differential equation y^(4) + 8y" – 9y = 0.
The general solution for the differential equation y^(4) + 8y" – 9y = 0 is y(x) = C1 * e^(1x) + C2 * e^(-1x) + C3 * e^(3ix) + C4 * e^(-3ix).
To find a general solution for the differential equation y^(4) + 8y" - 9y = 0, we will use the following terms: characteristic equation, auxiliary equation, and general solution.
Step 1: Write the characteristic (auxiliary) equation.
Replace the derivatives with powers of 'r' and set the equation equal to zero:
r^4 + 8r^2 - 9 = 0.
Step 2: Solve the characteristic equation.
This is a quadratic equation in r^2. Let's substitute x = r^2:
x^2 + 8x - 9 = 0.
Now, solve for x:
(x - 1)(x + 9) = 0.
The solutions for x are x1 = 1 and x2 = -9.
Step 3: Find the solutions for 'r'.
Since x = r^2, we can find the solutions for 'r':
r1 = sqrt(1) = 1,
r2 = -sqrt(1) = -1,
r3 = sqrt(-9) = 3i,
r4 = -sqrt(-9) = -3i.
Step 4: Write the general solution.
Now, using the values of 'r' that we found, we can write the general solution:
y(x) = C1 * e^(1x) + C2 * e^(-1x) + C3 * e^(3ix) + C4 * e^(-3ix).
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Breathing rates, in breaths per minute, were measured for a group of 10 subjects at rest, and then during moderate exercise. The results were as follows:
Subject Rest Exercise
1 15 27
2 16 37
3 21 39
4 17 37
5 18 40
6 15 39
7 19 34
8 21 40
9 18 38
10 14 34
Let μXμX represent the population mean during exercise and let μYμY represent the population mean at rest. Find a 95% confidence interval for the difference μD=μX−μYμD=μX−μY. Round the answers to three decimal places.
The 95% confidence interval is (, ).
The 95% confidence interval for the population mean difference in breathing rates between exercise and rest is (8.053, 20.147).
First, we need to find the sample mean and standard deviation for the difference in breathing rates between exercise and rest:
[tex]$\bar{d} = \frac{1}{n}\sum_{i=1}^{n}(d_i) = \frac{1}{10}\sum_{i=1}^{10}(x_i-y_i) = \frac{1}{10}(12+21+18+20+22+24+15+19+20+(-20)) = 14.1$[/tex]
Next, we need to find the t-value for a 95% confidence interval with 9 degrees of freedom. Using a t-distribution table, we find the t-value to be 2.306.
The margin of error for the 95% confidence interval is:
[tex]$ME = t_{0.025,9} \times \frac{s_d}{\sqrt{n}} = 2.306 \times \frac{9.081}{\sqrt{10}} = 6.047$[/tex]
Finally, we can construct the confidence interval for the population mean difference:
[tex]$(\bar{d} - ME, \bar{d} + ME) = (14.1 - 6.047, 14.1 + 6.047) = (8.053, 20.147)$[/tex]
Therefore, the 95% confidence interval for the population mean difference in breathing rates between exercise and rest is (8.053, 20.147).
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Which absolute value function defines this graph?
OA. f(x) = -4x+21+3
OB. f(x) = 4x + 2) +3
OC. f(x) = -4/x-21-3
OD. f(x) = 4x + 21-3
Answer:
A. f(x) = -4|x +2| +3
Step-by-step explanation:
You want the function that matches the graph of the absolute value function shown. Its vertex is (-2, 3) and it opens downward.
Opens downwardThe parent function must be reflected across the x-axis for its graph to open downward. That means the function must be multiplied by a negative number. (Eliminates choices B and D.)
Translated upwardThe vertex of the function is translated up 3 units, so 3 will be added to the function value. (Eliminates choices C and D.)
The only remaining viable choice is A.
A. f(x) = -4|x +2| +3
__
Additional comment
The translation left 2 units replaces x in the function by (x -(-2)) = (x+2). This matches choice A and eliminates choice C.
g(x) = a·f(x -h) +k
translates f(x) by (h, k). When a < 0, reflects f(x) across the x-axis. Here, (h, k) = (-2, 3).
The given vectors form a basis for a subspace W of R3. Apply the Gram-Schmidt Process to obtain an orthogonal basis for W. (Use the Gram-Schmidt Process found here to calculate your answer.) -3 x3 0 sqrt(2y2sqrt(6y6 sqrt(2)266 sqrt(6)/3
The orthogonal basis for the subspace W is { -1, (0, sqrt(2y^2) + sqrt(6y^6))/(3sqrt(2y^2 + 6y^6)), (sqrt(2)y^2 + (sqrt(2)sqrt(6)y^6)/(3sqrt(2y^2 + 6y^6)), sqrt(2)sqrt(6)y^6 - (sqrt(2)sqrt(6)y^6)/(3sqrt(2y^2 + 6y^6)), sqrt(2/6))/sqrt(2y^4 + 12y^12 + 1/3) }.
To apply the Gram-Schmidt Process to the given vectors, we will first normalize each vector to obtain a unit vector. Then, we will subtract the projection of each subsequent vector onto the previous vectors to obtain orthogonal vectors. Finally, we will normalize the orthogonal vectors to obtain an orthogonal basis for the subspace W.
Let's begin:
1. Normalize the first vector -3:
[tex]v1 = (-3)/sqrt((-3)^2) = (-3)/3 = -1[/tex]
2. Normalize the second vector (0, sqrt(2y^2), sqrt(6y^6)):
[tex]v2 = (0, sqrt(2y^2), sqrt(6y^6))/sqrt(0^2 + (sqrt(2y^2))^2 + (sqrt(6y^6))^2)[/tex]
[tex]v2 = (0, sqrt(2y^2), sqrt(6y^6))/sqrt(2y^2 + 6y^6)[/tex]
3. Subtract the projection of v2 onto v1:
proj_v2_v1 = ((v2 . v1)/(v1 . v1)) * v1
where . represents the dot product
v2_orth = v2 - proj_v2_v1
v2_orth = (0, sqrt(2y^2), sqrt(6y^6))/sqrt(2y^2 + 6y^6) - ((0 + sqrt(2y^2) + sqrt(6y^6))(-1/3))(-1)
v2_orth = (0, sqrt(2y^2), sqrt(6y^6))/sqrt(2y^2 + 6y^6) + (sqrt(2y^2) + sqrt(6y^6))/3
4. Normalize the orthogonal vector v2_orth:
u2 = v2_orth/|v2_orth| = (0, sqrt(2y^2) + sqrt(6y^6))/(3sqrt(2y^2 + 6y^6))
5. Normalize the third vector (sqrt(2)y^2, sqrt(2)sqrt(6)y^6, sqrt(2/6)):
v3 = (sqrt(2)y^2, sqrt(2)sqrt(6)y^6, sqrt(2/6))/sqrt((sqrt(2)y^2)^2 + (sqrt(2)sqrt(6)y^6)^2 + (sqrt(2/6))^2)
v3 = (sqrt(2)y^2, sqrt(2)sqrt(6)y^6, sqrt(2/6))/sqrt(2y^4 + 12y^12 + 1/3)
6. Subtract the projection of v3 onto v1 and v2:
proj_v3_v1 = ((v3 . v1)/(v1 . v1)) * v1
proj_v3_v2 = ((v3 . u2)/(u2 . u2)) * u2
v3_orth = v3 - proj_v3_v1 - proj_v3_v2
v3_orth = (sqrt(2)y^2, sqrt(2)sqrt(6)y^6, sqrt(2/6))/sqrt(2y^4 + 12y^12 + 1/3) - (sqrt(2)y^2)(-1) - ((sqrt(2)sqrt(6)y^6)/(3sqrt(2y^2 + 6y^6)))(sqrt(2) + sqrt(6))
v3_orth = (sqrt(2)y^2 + (sqrt(2)sqrt(6)y^6)/(3sqrt(2y^2 + 6y^6)), sqrt(2)sqrt(6)y^6 - (sqrt(2)sqrt(6)y^6)/(3sqrt(2y^2 + 6y^6)), sqrt(2/6))/sqrt(2y^4 + 12y^12 + 1/3)
7. Normalize the orthogonal vector v3_orth:
u3 = v3_orth/|v3_orth| = (sqrt(2)y^2 + (sqrt(2)sqrt(6)y^6)/(3sqrt(2y^2 + 6y^6)), sqrt(2)sqrt(6)y^6 - (sqrt(2)sqrt(6)y^6)/(3sqrt(2y^2 + 6y^6)), sqrt(2/6))/sqrt(2y^4 + 12y^12 + 1/3)
Therefore, the orthogonal basis for the subspace W is { -1, (0, sqrt(2y^2) + sqrt(6y^6))/(3sqrt(2y^2 + 6y^6)), (sqrt(2)y^2 + (sqrt(2)sqrt(6)y^6)/(3sqrt(2y^2 + 6y^6)), sqrt(2)sqrt(6)y^6 - (sqrt(2)sqrt(6)y^6)/(3sqrt(2y^2 + 6y^6)), sqrt(2/6))/sqrt(2y^4 + 12y^12 + 1/3) }.
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find the absolute maxima and minima for f(x) on the interval [a, b]. f(x) = 2x3 − 3x2 − 36x − 9, [−10, 10] absolute minimum (x, y) = absolute maximum (x, y) =
To find the absolute maxima and minima for f(x) = 2x^3 - 3x^2 - 36x - 9 on the interval [-10, 10], follow these steps:
Find the derivative, f'(x), to identify critical points: f'(x) = 6x^2 - 6x - 36. Set f'(x) = 0 and solve for x to find critical points: 6x^2 - 6x - 36 = 0.
3. Factor the equation: 6(x^2 - x - 6) = 0, then solve for x: x = -2, x = 3 (critical points). Evaluate f(x) at critical points and endpoints: f(-10), f(-2), f(3), f(10). Compare values to find the absolute minimum and maximum:
f(-10) = -909, f(-2) = -19, f(3) = 36, f(10) = 609. Identify absolute minimum (x, y) = (-2, -19) and absolute maximum (x, y) = (10, 609).
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Select the correct hypotheses to investigate our research question: Has the distribution of beliefs changed since 2009?
a. H0: There is no association between beliefs and year. | HA: There is some association between beliefs and year.
b. H0: p1 = 0.32, p2 = 0.15, p3 = 0.46, p4 = 0.07 | HA: At least one pi differs from the proportions in 2009.
The correct hypothesis to investigate our research question: Has the distribution of beliefs changed since 2009 is
b. H0: p1 = 0.32, p2 = 0.15, p3 = 0.46, p4 = 0.07 | HA: At least one pi differs from the proportions in 2009. So the correct option is option b.
To investigate the about the correct hypotheses to investigate our research question and has the distribution of beliefs changed since 2009 select the following hypotheses:
H0: p1 = 0.32, p2 = 0.15, p3 = 0.46, p4 = 0.07 (There is no change in the distribution of beliefs since 2009.)
HA: At least one pi differs from the proportions in 2009 (There is some change in the distribution of beliefs since 2009.)
This is option (b) in your given choices. These hypotheses will allow you to test whether the distribution of beliefs has changed since 2009 by comparing the proportions of each belief in your sample to the proportions in 2009.
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Miss Edwards bought 11.92 gallons of gasoline at $1.49 9/10
per gallon. Estimate how much she paid for the gasoline.
For random samples of size n=16 selected from a normal distribution with a mean of μ = 75 and a standard deviation of σ = 20, find each of the following: The range of sample means that defines the middle 95% of the distribution of sample means
The range of sample mean is that it defines the middle 95% of the distribution of sample mean is from 68.2 to 81.8. This means that if we were to take multiple random samples of size 16 from the population, 95% of the sample means would fall within this range.
To find the range of sample means that defines the middle 95% of the distribution of sample means, we can use the formula:
range = (X - zα/2 * σ/√n, X + zα/2 * σ/√n)
where X is the sample mean, σ is the population standard deviation, n is the sample size, and zα/2 is the z-score that corresponds to the desired confidence level and is found using a standard normal distribution table.
For a 95% confidence level, zα/2 = 1.96. Substituting the given values into the formula, we get:
range = (75 - 1.96 * 20/√16, 75 + 1.96 * 20/√16)
range = (68.2, 81.8)
Therefore, the range of sample means that defines the middle 95% of the distribution of sample means is from 68.2 to 81.8. This means that if we were to take multiple random samples of size 16 from the population, 95% of the sample means would fall within this range.
To find the range of sample means that defines the middle 95% of the distribution of sample means, we need to use the Central Limit Theorem and calculate the standard error.
Given a normal distribution with mean (μ) = 75, standard deviation (σ) = 20, and sample size (n) = 16, we can calculate the standard error (SE) using the following formula:
SE = σ / √n
SE = 20 / √16
SE = 20 / 4
SE = 5
Now, we need to find the critical z-score for a 95% confidence interval. For a 95% confidence interval, the critical z-score (z*) is approximately ±1.96.
Next, we'll use the critical z-score to find the margin of error (ME):
ME = z* × SE
ME = 1.96 × 5
ME = 9.8
Finally, we'll calculate the range of sample means:
Lower limit = μ - ME = 75 - 9.8 = 65.2
Upper limit = μ + ME = 75 + 9.8 = 84.8
The range of sample means that defines the middle 95% of the distribution of sample means is approximately 65.2 to 84.8.
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Peter needs to borrow $10,000 to repair his roof. He will take out a 317-loan on April 15th at 4% interest from the bank. He will make a payment of $3,500 on October 12th and a payment of $2,500 on January 11th.
a) What is the due date of the loan?
b) Calculate the interest due on October 12th and the balance of the loan after the October 12th payment.
a) The due date of the loan is April 15th of the following year.
b) The interest due on October 12th is $200 and the balance of the loan after the October 12th payment is $6,700.
Define interest rate?The percentage amount a lender charges a borrower for using money or the amount a saver earns for depositing money in a bank or other financial institution is known as an interest rate.
a) Let's assume that the loan term is 12 months.
The loan is taken out on April 15th, so the due date will be 12 months later, which is:
April 15th + 12 months = April 15th of the following year.
Therefore, the due date of the loan is April 15th of the following year.
b) The interest for the 6 months between April 15th and October 12th is:
Interest = Principal x Rate x Time
= $10,000 x 0.04 x (6/12)
= $200
Therefore, the interest due on October 12th is $200.
The payment made on October 12th is $3,500, so the remaining balance of the loan after that payment is:
Balance = Principal + Interest - Payment
= $10,000 + $200 - $3,500
= $6,700
So, the balance of the loan after the October 12th payment is $6,700.
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Calculate y(s) for the initial value problem y''-2y' y=cos(5t)-sin(5t), y(0)=1, y'(0)=1
To solve this initial value problem, we can use Laplace transforms. First, we take the Laplace transform of both sides of the differential equation:
s^2 Y(s) - s y(0) - y'(0) - 2[s Y(s) - y(0)] Y(s) = (s/(s^2 + 25)) - (5/(s^2 + 25))
To find y(t), we need to take the inverse Laplace transform of Y(s). This can be done using partial fractions:
Y(s) = (s + 4)/(s - 5)(s^2 + 7s + 25)
Y(s) = A/(s - 5) + (Bs + C)/(s^2 + 7s + 25)
Multiplying both sides by the denominator and equating coefficients, we get:
A(s^2 + 7s + 25) + (Bs + C)(s - 5) = s + 4
Solving for A, B, and C, we get:
A = -0.04, B = 0.16 and C = 0.12
Therefore, the inverse Laplace transform of Y(s) is:
y(t) = (-0.04e^5t + 0.16cos(5t) + 0.12sin(5t))u(t)
where u(t) is the unit step function. Thus, the solution to the initial value problem is:
y(t) = (-0.04e^5t + 0.16cos(5t) + 0.12sin(5t))u(t) + 1
To solve the given initial value problem, y'' - 2y' = cos(5t) - sin(5t), with initial conditions y(0) = 1 and y'(0) = 1, we will use the Laplace transform method.
1. Apply the Laplace transform to the entire equation:
L{y''} - 2L{y'} = L{cos(5t) - sin(5t)}
2. Use the properties of the Laplace transform:
s^2Y(s) - sy(0) - y'(0) - 2[sY(s) - y(0)] = (s/(s^2 + 25)) - (5/(s^2 + 25))
3. Substitute the initial conditions y(0) = 1 and y'(0) = 1:
s^2Y(s) - s - 1 - 2[sY(s) - 1] = (s/(s^2 + 25)) - (5/(s^2 + 25))
4. Solve for Y(s):
Y(s) = (s^2 + 2s + 1)/[(s^2 + 25)(s - 1)]
5. Apply the inverse Laplace transform to find y(t):
y(t) = L^{-1}{(s^2 + 2s + 1)/[(s^2 + 25)(s - 1)]}
This final expression represents the solution to the initial value problem. To obtain an explicit form of y(t), one would need to apply inverse Laplace transform techniques, such as partial fraction decomposition and using the inverse Laplace transform for each term.
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assume that the random variable x is normally distributed, with mean =80 and a standard deviation =12. compute the probability p(x>95).
The probability P(X > 95) for a normally distributed random variable X is approximately 0.211.
How to compute the probability?To compute the probability P(X > 95) for a normally distributed random variable X with a mean of 80 and a standard deviation of 12, follow these steps:
1. Convert the raw score (95) to a z-score using the formula:
z = (x - mean) / standard deviation
z = (95 - 80) / 12
z ≈ 1.25
2. Use a standard normal distribution table or a calculator to find the area to the right of the z-score, which represents P(X > 95).
For z ≈ 1.25, the area to the right is ≈ 0.211
So, the probability P(X > 95) for a normally distributed random variable X with a mean of 80 and a standard deviation of 12 is approximately 0.211.
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Complete the square to re-write the quadratic function in vertex form
Answer: [tex]y=(x-5)^{2} -23[/tex]
Step-by-step explanation:
Step 1: Subtract 2 from both sides to get [tex]y-2=x^{2} -10x[/tex].
Step 2: Divide B (-10) by 2 to get -5
Step 3: Square your answer to Step 2 to get 25.
Step 4: Use the answer you got to Step 3 as your C value. We get [tex]y-2=x^{2} -10x+25[/tex].
Step 5: Since we added 25 to the right side of the equal sign, we have to add 25 to the left side of the equal sign. We get [tex]y+23=x^{2} -10x+25[/tex].
Step 6: Complete the square, to do this keep the left side of the equal sign the same and change the right side to (x + or - B/2 [depending on if its positive or negative]) squared. In this case it's [tex]y+23=(x-5)^{2}[/tex].
Step 7: We still have to get our K value because our vertex formula is [tex]y=a(x-h)^{2} +k[/tex], but in this case our A value is just 1, so it doesn't have to be replaced. So, to get K we subtract 23 from both sides to get our final answer of [tex]y=(x-5)^{2} -23[/tex].
The probability of a three of a kind in poker is approximately 1/50. Use the Poisson approximation to estimate the probability you will get at least one three of a kind if you play 20 hands of poker.
The probability of getting at least one three of a kind in 20 hands of poker, using the Poisson approximation, is approximately 0.3293 or about 32.93%.
What is probability?
Probability is a branch of mathematics that deals with the study of random events or processes. It is the measure of the likelihood that an event will occur, expressed as a number between 0 and 1, where 0 means that the event will not occur and 1 means that the event is certain to occur.
We can use the Poisson distribution to approximate the probability of getting at least one three of a kind in 20 hands of poker, given that the probability of a three of a kind is approximately 1/50.
Let λ be the expected number of three of a kinds in 20 hands. Then λ = np, where n is the number of hands (20) and p is the probability of a three of a kind (1/50).
λ = np = 20 * (1/50) = 0.4
Using the Poisson distribution, the probability of getting k three of a kinds in 20 hands is given by:
[tex]P(k) = (e^{(-\lambda)} * \lambda^k) / k![/tex]
The probability of getting at least one three of a kind in 20 hands is:
P(at least one three of a kind) = 1 - P(0 three of a kinds)
[tex]= 1 - (e^(-0.4) * 0.4^0) / 0!\\\\= 1 - e^(-0.4)[/tex]
≈ [tex]0.3293[/tex]
Therefore, the probability of getting at least one three of a kind in 20 hands of poker, using the Poisson approximation, is approximately 0.3293 or about 32.93%.
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The matrix A = [ ] has eigenvalues -3, -1, and 5. Find its eigenvectors. The eigenvalue -3 is associated with eigenvector ( 1, 1/14 ,-4/7 ). The eigenvalue -1 is associated with eigenvector ( , , ). The eigenvalue 5 is associated with eigenvector ( , ).
Eigenvectors associated with -3, -1, and 5 are (1, 1/14, -4/7), (-1, 1, 0), and (1, 1, 0), respectively.
How to find the eigenvectors associated with eigenvalues -1 and 5?We need to solve the system of equations:
(A - λI)x = 0
λ is eigenvalue
I is identity matrix.
For λ = -1:
(A + I)x = 0
[2 2 2]
[2 2 2]
[2 2 2]
R2 <- R1
[2 2 2]
[0 0 0]
[2 2 2]
R3 <- R1 - R3
[2 2 2]
[0 0 0]
[0 0 0]
So we have the equation 2x + 2y + 2z = 0, which simplifies to x + y + z = 0. We can choose y = 1 and z = 0 to get x = -1, so the eigenvector associated with -1 is (-1, 1, 0).
For λ = 5:
(A - 5I)x = 0
[-2 2 2]
[2 -2 2]
[2 2 -8]
R1 <-> R2
[2 -2 2]
[-2 2 2]
[2 2 -8]
R3 <- R1 + R3
[2 -2 2]
[-2 2 2]
[4 0 -6]
R1 <- R1/2
[1 -1 1]
[-2 2 2]
[4 0 -6]
R2 <- R2 + 2R1
[1 -1 1]
[0 0 4]
[4 0 -6]
R3 <- R3 - 4R1
[1 -1 1]
[0 0 4]
[0 4 -10]
R3 <- R3/2
[1 -1 1]
[0 0 4]
[0 2 -5]
So we have the equation x - y + z = 0 and 4z = 0. We can choose y = 1 and z = 0 to get x = 1, so the eigenvector associated with 5 is (1, 1, 0).
Therefore, the eigenvectors associated with -3, -1, and 5 are (1, 1/14, -4/7), (-1, 1, 0), and (1, 1, 0), respectively.
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(1 point) find the general solution to y′′′−y′′ 5y′−5y=0. in your answer, use c1,c2 and c3 to denote arbitrary constants and x the independent variable. enter c1 as c1, c2 as c2, and c3 as c3.
The required answer is y(x) = c1 e^x + c2 cos(√5 x) + c3 sin(√5 x)
To find the general solution to y′′′−y′′ 5y′−5y=0, we first write the characteristic equation:
An arbitrary constant is a symbol used to represent an object which is neither a specific number nor a variable. It is used to represent a general object (usually a number, but not necessarily) whose value can be assigned when the expression is instantiated.
the word constant conveys multiple meanings. As an adjective, it refers to non-variance (i.e. unchanging with respect to some other value); as a noun, it has two different meanings:
r^3 - r^2 + 5r - 5 = 0
This can be factored as:
(r-1)(r^2 + 5) = 0
Thus, the roots are r=1, r=i√5, and r=-i√5.
A constant may be used to define a constant function that ignores its arguments and always gives the same value.
A symbol that stands for an arbitrary input is called an independent variable, while a symbol that stands for an arbitrary output is called a dependent variable.
The general solution is then given by:
y(x) = c1 e^x + c2 cos(√5 x) + c3 sin(√5 x)
where c1, c2, and c3 are arbitrary constants.
Therefore, the solution to y′′′−y′′ 5y′−5y=0, using c1 as c1, c2 as c2, and c3 as c3, is:
y(x) = c1 e^x + c2 cos(√5 x) + c3 sin(√5 x)
To find the general solution to the given differential equation, y''' - y'' + 5y' - 5y = 0, follow these steps:
A symbol that stands for an arbitrary input is called an independent variable, while a symbol that stands for an arbitrary output is called a dependent variable. The most common symbol for the input is x, and the most common symbol for the output is y; the function itself is commonly written y = f(x).
it is possible to have multiple independent variables or multiple dependent variables. For instance, in multivariable calculus, one often encounters functions of the form z = f(x ,y), where z is a dependent variable and x and y are independent variables
Step 1: Identify the characteristic equation for the given differential equation.
For the given differential equation, the characteristic equation is:
r^3 - r^2 + 5r - 5 = 0
Step 2: Solve the characteristic equation for r.
This cubic equation is difficult to solve by hand, but using a numerical method or software, we find the roots to be approximately:
r1 ≈ 0.201
r2 ≈ 1.159
r3 ≈ 2.640
Step 3: Construct the general solution using the roots and the arbitrary constants c1, c2, and c3.
The general solution to the differential equation is given by:
y(x) = c1 * e^(r1 * x) + c2 * e^(r2 * x) + c3 * e^(r3 * x)
So, the general solution to y''' - y'' + 5y' - 5y = 0 is:
y(x) = c1 * e^(0.201 * x) + c2 * e^(1.159 * x) + c3 * e^(2.640 * x)
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The relationship between the number of pound (lb) of beef and the total cost in dollars shown in the graph. What is the unit price of beef?
1 lb/$5
$5/1lb
$1/5lb
$10/2lb
Answer:
Answer Choice B
Step-by-step explanation:
It is 5$ for 1 lb so that means you get the fraction $5/1lb
State if the triangle is acute obtuse or right
Answer: Right
Step-by-step explanation: You have 3 angles, two are less than 90 degrees while the other is exactly 90, that would make this a right triangle.
how do i round 1.5x squared - 6x -4 =0 to the nearest hundredth
Answer:
0
Step-by-step explanation:
let y be a continuous random variable with mean 11 and variance 9. using tcheby- shev’s inequality, find (a) a lower bound for p(6
The lower bound for y to be continuous random variable with mean 11 and variance 9 using Chebyshev's Inequality is 0.6413 or 64.13%.
Using the given information, we can apply Chebyshev's Inequality to find a lower bound for the probability P(6 ≤ y ≤ 16).
Given that y is a continuous random variable with a mean (μ) of 11 and a variance (σ²2) of 9, we have a standard deviation (σ) of 3.
Chebyshev's Inequality states that the probability of a random variable y being within k standard deviations of the mean is at least:
P(|y - μ| ≤ kσ) ≥ 1 - 1/k²
For this problem, we want to find the lower bound for P(6 ≤ y ≤ 16). We can rewrite this as:
P(11 - 5 ≤ y ≤ 11 + 5)
This means that we're interested in the probability of y being within 5 units of the mean, which is approximately 1.67 standard deviations (5/3 = 1.67). Therefore, k = 1.67.
Applying Chebyshev's Inequality:
P(|y - 11| ≤ 1.67 * 3) ≥ 1 - 1/(1.67²)
P(6 ≤ y ≤ 16) ≥ 1 - 1/(2.7889)
P(6 ≤ y ≤ 16) ≥ 0.6413
So, the lower bound for the probability P(6 ≤ y ≤ 16) is approximately 0.6413 or 64.13%.
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The lower bound for y to be continuous random variable with mean 11 and variance 9 using Chebyshev's Inequality is 0.6413 or 64.13%.
Using the given information, we can apply Chebyshev's Inequality to find a lower bound for the probability P(6 ≤ y ≤ 16).
Given that y is a continuous random variable with a mean (μ) of 11 and a variance (σ²2) of 9, we have a standard deviation (σ) of 3.
Chebyshev's Inequality states that the probability of a random variable y being within k standard deviations of the mean is at least:
P(|y - μ| ≤ kσ) ≥ 1 - 1/k²
For this problem, we want to find the lower bound for P(6 ≤ y ≤ 16). We can rewrite this as:
P(11 - 5 ≤ y ≤ 11 + 5)
This means that we're interested in the probability of y being within 5 units of the mean, which is approximately 1.67 standard deviations (5/3 = 1.67). Therefore, k = 1.67.
Applying Chebyshev's Inequality:
P(|y - 11| ≤ 1.67 * 3) ≥ 1 - 1/(1.67²)
P(6 ≤ y ≤ 16) ≥ 1 - 1/(2.7889)
P(6 ≤ y ≤ 16) ≥ 0.6413
So, the lower bound for the probability P(6 ≤ y ≤ 16) is approximately 0.6413 or 64.13%.
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Suppose that a family wants to fence in an area of their yard for a vegetable garden to keep out deer. One side is already fenced from the neighbor's pro X x Part: 0/2 Part 1 of 2 (a) If the family has enough money to buy 140 ft of fencing, what dimensions would produce the maximum area for the garden? The dimensions that would produce the maximum area for the garden are 70 ft by 35 ft. $ Part: 1 / 2 Part 2 of 2 (b) What is the maximum area? The maximum area of the garden is ft? Х $
The dimensions of the garden, when the family has enough money to buy 140 ft of fencing, is 70 ft by 35 ft and the area is 2450 sq. ft.
To find the dimensions that would produce the maximum area for the garden, we need to use the concept of optimization.
Let's assume that the family wants to fence in a rectangular area of their yard for the vegetable garden.
Since one side is already fenced from the neighbor's property, we only need to fence the other three sides. Let's call the length of the garden x and the width y. Therefore, the perimeter of the garden would be P = x + 2y.
We know that the family has enough money to buy 140 ft of fencing, so we can set up an equation:
x + 2y = 140
Solving for x, we get:
x = 140 - 2y
To find the maximum area, we need to maximize the equation A = xy.
Substituting the value of x from the above equation, we get:
A = (140 - 2y)y
Expanding the equation, we get:
A = 140y - 2y²
To find the maximum area, we need to find the value of y that maximizes the equation. We can do this by taking the derivative of the equation with respect to y and setting it equal to zero:
dA/dy = 140 - 4y = 0
Solving for y, we get:
y = 35
Substituting this value of y back into the equation for x, we get:
x = 140 - 2(35) = 70
Therefore, the dimensions that would produce the maximum area for the garden are 70 ft by 35 ft.
To find the maximum area, we can substitute these values back into the equation for A:
A = (70)(35) = 2450 sq. ft.
Therefore, the maximum area of the garden is 2450 sq. ft.
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Cheddar cheese costs 55p per 100g. Swiss cheese costs 60p per 100g. Zac spen a total of £3. 15 on cheese. He bought 300g of Cheddar. How many grams of swiss cheese did he buy
Zac bought 250 grams of Swiss cheese.
To find out how many grams of Swiss cheese Zac bought, let's follow these steps:
Calculate the cost of Cheddar cheese: 300g of Cheddar cheese costs 55p per 100g,
so (300g / 100g) × 55p = 3 × 55p = 165p.
Convert the total amount spent on cheese to pence:
£3.15 = 315p.
Subtract the cost of Cheddar cheese from the total amount spent:
315p - 165p = 150p.
Calculate the grams of Swiss cheese:
Since Swiss cheese costs 60p per 100g, divide the remaining cost by the price per 100g:
150p / 60p = 2.5.
Multiply the result by 100g to find the total grams of Swiss cheese:
2.5 × 100g = 250g.
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find the value of each of the six trigonometric functions for the angle, in standard position, whose terminal side passes through the given point. (if an answer is undefined, enter undefined.) P= (-8 , 5). Sin 0 = ___ . Cos 0 = ____. Tan 0 = ____. Csc 0 = ____. Sec 0 = ___. Cot 0 = ____.
sec θ = -√89/8
cot θ = -8/5
We can use the distance formula to find the hypotenuse of the right triangle formed by the terminal side passing through point P(-8, 5):
h = √(x^2 + y^2) = √((-8)^2 + 5^2) = √(64 + 25) = √89
Now we can use the definitions of the trigonometric functions to find their values:
sin θ = y/h = 5/√89
cos θ = x/h = -8/√89 (negative because x is negative in the second quadrant)
tan θ = y/x = -5/8 (negative because both x and y are in opposite quadrants)
csc θ = h/y = √89/5
sec θ = h/x = -√89/8 (negative because x is negative in the second quadrant)
cot θ = 1/tan θ = -8/5 (negative because both x and y are in opposite quadrants)
Therefore, the values of the six trigonometric functions for the angle whose terminal side passes through point P(-8, 5) are:
sin θ = 5/√89
cos θ = -8/√89
tan θ = -5/8
csc θ = √89/5
sec θ = -√89/8
cot θ = -8/5
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You invest your entire life savings of $10,000 into the stock market. The stock market typically increases by
10% in interest on your investment each year. The following exponential function represents your
investment:
f(x) = 10000(1.10)*
How much money will your investment be worth after 10 years?
[YOU MUST TYPE A NUMBER ANSWER ROUNDED TO TWO DECIMAL PLACES]
Answer:
Step-by-step explanation:
Answer:
Step-by-step explanation:
Two dice are thrown simultaneously. Find the probability of getting: (a) an even number as the sum; (b) a total of at least 10; (c) same number on both dice i.e. a doublet; (d) a multiple of 3 as the sum.
The probabilities are given as follows:
(a) an even number as the sum: 1/2.
(b) a total of at least 10: 1/6.
(c) same number on both dice i.e. a doublet: 1/6.
(d) a multiple of 3 as the sum: 1/3.
How to calculate a probability?A probability is calculated as the division of the desired number of outcomes by the total number of outcomes in the context of a problem/experiment.
The 36 total outcomes when a pair of dice are thrown are given as follows:
(1,1), (1,2), (1,3), (1,4), (1,5), (1,6)(2,1), (2,2), (2,3), (2,4), (2,5), (2,6)(3,1), (3,2), (3,3), (3,4), (3,5), (3,6)(4,1), (4,2), (4,3), (4,4), (4,5), (4,6)(5,1), (5,2), (5,3), (5,4), (5,5), (5,6)(6,1), (6,2), (6,3), (6,4), (6,5), (6,6)The sum follows the pattern even, odd, ..., even, so there are 18 even sums and 18 odd sums, hence the probability of an even sum is given as follows:
p = 18/36 = 1/2.
There are six outcomes with a sum of at least 10, hence the probability is of:
p = 6/36 = 1/6.
There are six doblets, (1,1), (2,2), ..., (6,6), ..., hence the probability is given as follows:
p = 6/36 = 1/6.
There are 12 outcomes in which the sum is a multiple of 3, hence the probability is given as follows:
p = 12/36
p = 1/3.
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find the area of the region between the following curves by integrating with respect to y . if necessary, break the region into subregions first. x = y − y 2 and x = − 3 y 2
Answer:
0.0417 unit^2.
Step-by-step explanation:
First find the points at which the curves intersect
x = y - y^2
x = -3y^2
---> y - y^2 = -3y^2
---> 2y^2 + y = 0
---> y(2y + 1)= 0
y = -0.5, 0.
At these values x = -0.75 and 0.
The points of intersection are (0, 0) and (-0.75, -0.5)
The required area
-0.5
= ∫ -3y^2 - ∫y - y^2
0
= [ -y^3 - (y^2/2 - y^3/3)] between limits -0.5 and 0
= [0.125 - ( 0.125 - (-0.125/3)]
= -0.0417
We take the positive value 0.0417.