[tex]\textit{Periodic/Cyclical Exponential Decay} \\\\ A=P(1 - r)^{\frac{t}{c}}\qquad \begin{cases} A=\textit{current amount}\\ P=\textit{initial amount}\dotfill &4900\\ r=rate\to 62.5\%\to \frac{62.5}{100}\dotfill &\frac{5}{8}\\ t=\textit{seconds}\\ c=period\dotfill &7 \end{cases} \\\\\\ A=4900(1 - \frac{5}{8})^{\frac{t}{7}}\implies A=4900(\frac{3}{8})^{\frac{t}{7}}\hspace{5em}losing ~~ \frac{5}{8} ~~ \textit{every 7 seconds}[/tex]
Suppose y1 = 2t sin 3t is a solution of the equation y" + 2y' + 2y = fi(t) and y2 = cos 6t – e^{-t} cost is a solution of the equation y" + 2y + 2y = f2(t). Using the superposition of principle, find a solution of y" +2y’ + 2y=3f1(t) + f2(t). 2.
A solution of [tex]y" + 2y' + 2y = 3f1(t) + f2(t)[/tex] using the superposition principle is given by: [tex]y = ((3-f2(t))/8) y1 + ((1+3f1(t))/8) y2[/tex]
It be found by taking a linear combination of the two given solutions y1 and y2. Let c1 and c2 be constants, then the solution y can be expressed as y = c1y1 + c2y2. To find c1 and c2, we differentiate y twice and substitute it into the given differential equation:
[tex]y' = c1(2cos(3t) - 6tsin(3t)) + c2(-6e^-{t sin(6t)} - e^{-t cos(6t)})[/tex]
[tex]y" = c1(-18sin(3t) - 36tcos(3t)) + c2(-36e^{-t sin(6t)} + 12e^{-t cos(6t)})[/tex]
Substituting these expressions for y and its derivatives into the differential equation and simplifying, we get: [tex](3c1 + c2) f1(t) + (c1 + 3c2) f2(t) = 0[/tex]
Since this must hold for all t, we can equate the coefficients of f1(t) and f2(t) to zero to get the system of equations: [tex]3c1 + c2 = 3, c1 + 3c2 = 1[/tex]
Solving for c1 and c2, we get [tex]c1 = (3-f2(t))/8[/tex] and [tex]c2 = (1+3f1(t))/8.[/tex]
Note that this solution is valid only if f1(t) and f2(t) are continuous and differentiable.
To know more about superposition principle, refer here:
https://brainly.com/question/11876333#
#SPJ11
The derivative of a function f at a number a denoted by f'(a), is f(a) lima+h)- f(a) = h h 0 if this limit exists Sketch f(x) and draw a representation that shows the relationship between f'(a), f(a+h) and f(a). Explain how your illustration represents the definition of the derivative a function at a number a.
The derivative of a function at a point can be shown as the slope of the tangent line to the graph of the function at that point [a,f(a)]. This slope is found by taking the limit of the difference quotient [f(a+h) - f(a)]/h as h approaches 0.
The derivative of a function f at a number a, denoted by f'(a), can be represented graphically as the slope of the tangent line to the graph of f at the point [a,f(a)].
To illustrate this, we can sketch the graph of f(x) and draw a secant line passing through the points [a,f(a)] and [a+h, f(a+h)], where h is a small positive number. As h approaches 0, the secant line becomes closer and closer to the tangent line at the point [a,f(a)].
The slope of the secant line is given by the difference quotient [f(a+h) - f(a)]/h, and the slope of the tangent line is given by the limit of this difference quotient as h approaches 0. This limit is f'(a), the derivative of f at a.
In summary, the definition of the derivative of a function at a point a can be represented graphically as the slope of the tangent line to the graph of the function at the point [a,f(a)]. This slope is found by taking the limit of the difference quotient [f(a+h) - f(a)]/h as h approaches 0.
To know more about tangent line refer here:
https://brainly.com/question/31326507#
#SPJ11
Enter a number, if necessary, rounded to three decimals. A rectangular field's perimeter is 116 yards with one side that measures 27 yards. The sides of a square field with the same area as the rectangular field measure ... yards.
Let's start by finding the length and width of the rectangular field. Let's call the width of the rectangular field "w" and the length "l."
We know that the perimeter (P) of a rectangle is given by:
P = 2l + 2w
And we know that the perimeter of this particular rectangular field is 116 yards. So we can write:
116 = 2l + 2w
We also know that one side of the rectangular field measures 27 yards. Let's assume that this is the length of the field (l), so we can write:
l = 27
Substituting this value into the equation for the perimeter, we get:
116 = 2(27) + 2w
Simplifying:
116 = 54 + 2w
2w = 62
w = 31
So the width of the rectangular field is 31 yards.
The area (A) of a rectangle is given by:
A = l*w
So the area of the rectangular field is:
A = 27*31 = 837
Now we need to find the sides of a square field with the same area as the rectangular field. The area of a square (A_s) is given by:
A_s = s^2
Where s is the length of one side of the square. We know that the area of the square is the same as the area of the rectangular field, so we can write:
A_s = A
s^2 = 837
s = sqrt(837) ≈ 28.948
Rounded to three decimals, the sides of the square field measure approximately 28.948 yards.
The sides of the square field measure approximately 29 yards.
Let the other side of the rectangular field be denoted by x. Since the perimeter of the rectangular field is 116 yards, we have:
2x + 2(27) = 116
2x + 54 = 116
2x = 62
x = 31
So the rectangular field has sides of length 27 and 31, and its area is:
A = 27 × 31 = 837
The area of the square field with the same area as the rectangular field is also 837, so its side length s satisfies:
s^2 = 837
Taking the square root of both sides, we get:
s ≈ 28.997
Rounding to three decimal places, we get s ≈ 29.
Learn more about square fields at https://brainly.com/question/8016375
#SPJ11
Jayla puts $800.00 into an account to use for school expenses. The account earns 4%
interest, compounded annually. How much will be in the account after 8 years?
= P(1 + ²)^², \ where A is the balance (final amount), P is the principal
I
Use the formula A =
(starting amount), r is the interest rate expressed as a decimal, n is the number of times per
year that the interest is compounded, and t is the time in years.
Round your answer to the nearest cent.
a phlebotomist measured the cholesterol levels of a sample of 252525 people between the ages of 353535 and 444444 years old. here are summary statistics for the samples:
A phlebotomist conducted a study involving 25,525 individuals aged between 35,535 and 44,444 years old to measure their cholesterol levels.
Summary statistics for the sample were obtained to analyze the data and draw conclusions about cholesterol levels in this specific age group. Based on the information given, we know that a phlebotomist measured the cholesterol levels of a sample of 252525 people between the ages of 353535 and 444444 years old. Here are the summary statistics for the samples:
- Sample size: 252525
- Age range: 353535 to 444444 years old
- Cholesterol levels: No information was provided about the mean, median, mode, or range of cholesterol levels in the sample.
To learn more about mean visit;
brainly.com/question/31101410
#SPJ11
Directions - Convert each equation to slope intercept form, then determine if the lines are parallel, perpendicular, or neither(intersecting).
A) 2z+3y=9
B) 2y-32-8
Slope Intercept Equation
Para, Perp, or Neither
(A) The slope and intercept form of the equation 2z+3y=9 is y = (-2/3)z + 3.
(B) The slope and intercept form of an equation 2y-32-8 is y = 12.
To convert this equation to slope-intercept form, we need to isolate y on one side of the equation. We can do this by subtracting 2z from both sides and then dividing everything by 3:
2z + 3y = 9
3y = -2z + 9
y = (-2/3)z + 3
So the slope-intercept equation for A is y = (-2/3)z + 3.
Now for the second equation:
B) 2y - 32 = -8
To convert this equation to slope-intercept form, we need to isolate y on one side of the equation. We can do this by adding 32 to both sides and then dividing everything by 2:
2y - 32 = -8
2y = 24
y = 12
So the slope-intercept equation for B is y = 12.
To know more about slope-intercept follow
https://brainly.com/question/25722412
#SPJ1
P is any point inside triangle ABC. Prove that PA + PB + PC > (AB+BC+CA)/(2)
If P is any point inside triangle ABC, then
PA + PB + PC > (AB + BC + CA)/2
It is given that P is any point inside the triangle ABC. So after taking a point P inside the triangle ABC, we will join P with the vertices of the triangle which are A, B, and C. So, now we have formed three sides which are PA, PB, and PC as shown in the figure.
Now, we can see that we have three more triangles formed inside the triangle ABC. These triangles are PAB, PAC, and PBC. As we know the sum of the two sides of a triangle is always greater than the third side. We will apply this property in these three triangles.
In △PBA, AB < PA+PB (1)
In △PBC, BC < PB+PC (2)
In △PCA, AC < PC+PA (3)
Adding (1), (2), and (3), we get
AB + BC + AC < PA + PB + PB + PC + PC + PA
AB + BC + AC < 2PA + 2PB + 2PC
AB + BC + AC < 2(PA + PB + PC)
(PA + PB + PC) > (AB + BC + AC)/2
To learn more about the properties of a triangle;
https://brainly.com/question/30166682
#SPJ4
the physical plant at the main campus of a large state university recieves daily requests to replace fluorescent lightbulbs. the distribution of the number of daily requests is bell-shaped and has a mean of 58 and a standard deviation of 7. using the empirical rule, what is the approximate percentage of lightbulb replacement requests numbering between 44 and 58? do not enter the percent symbol. ans
The empirical rule states that approximately 68% of the data falls within one standard deviation, we can estimate that the percentage of lightbulb replacement requests numbering between 44 and 58 is slightly more than half of 68%, which is approximately 34%.
Using the empirical rule, we know that approximately 68% of the data falls within one standard deviation of the mean, 95% falls within two standard deviations, and 99.7% falls within three standard deviations. Since we are looking for the percentage of requests between 44 and 58, which is one standard deviation below and above the mean, we can estimate that approximately 68% / 2 = 34% of the requests fall within this range. Therefore, the approximate percentage of lightbulb replacement requests numbering between 44 and 58 is 34. Based on the given information, the number of daily requests for lightbulb replacements has a mean of 58 and a standard deviation of 7. Using the empirical rule, we know that approximately 68% of the data falls within one standard deviation of the mean. Since the distribution is bell-shaped, we can apply the empirical rule here.In this case, one standard deviation below the mean is 58 - 7 = 51. The requested range is between 44 and 58, which is slightly larger than the range of one standard deviation below the mean (51-58).
Learn more about standard deviation here
https://brainly.com/question/24298037
#SPJ11
if a quadratic function has zeros at x= -4 and x=6, what is the x-coordinate of the vertex
The x-coordinate of the vertex of the quadratic equation is 1.
If a quadratic function has zeros at x = -4 and x = 6, it can be written in factored form as:
f(x) = a(x + 4)(x - 6)
where a is a constant that determines the shape of the parabola.
To find the x-coordinate of the vertex, we need to first rewrite the function in standard form:
f(x) = a(x² - 2x - 24)
f(x) = ax² - 2ax - 24a
To complete the square and find the vertex, we need to factor out the "a" coefficient from the first two terms:
f(x)= a(x² - 2x) - 24a
To complete the square, we need to add and subtract (2/a)² inside the parentheses:
f(x) = a(x² - 2x + (2/a)² - (2/a)²) - 24a
Simplifying this expression, we get:
f(x) = a[(x - 1)² - 1/a²] - 24a
Now we can see that the vertex of the parabola occurs at x = 1. Therefore, the x-coordinate of the vertex is 1.
To know more about quadratic equations follow
https://brainly.com/question/19413948
#SPJ1
Determine the Laplace transform of each of the following functions by applying the properties given in Tables 3-1 and 3-2. (a) x1(t) = 16^-e2t cos4t u(1) (b) x2(t) = 20 te^-2t sin4t u(t) (e) x3(t) =10e^-3t u(t-4)
(a)The Laplace transform of [tex]x_{1} (t)[/tex] is [tex]16^-s/(s+2)^2 + 4^2e^-2s/(s+2)^2[/tex],
(b) the Laplace transform of [tex]x_{2} (t)[/tex] is[tex](40s+88)/(s+2)^3[/tex], and (e) the Laplace transform of [tex]x_{3} (t)[/tex] is[tex]10/(s+3)e^-4s[/tex].
(a) Using Table 3-2, the Laplace transform of [tex]x_{1} (t)[/tex] can be expressed as:
L{[tex]x_{1} (t)[/tex]} = [tex]16^-(s+2)/(s+2)^2 + 4^2[/tex] where u(1) is the unit step function, e is the mathematical constant e, and cos4t is the cosine function with a frequency of 4.
By applying the time-shift property of Laplace transform, we can simplify the expression to: L{[tex]x_{1} (t)[/tex]} =[tex]16^-s/(s+2)^2 + 4^2e^-2s/(s+2)^2[/tex]
(b) Using Table 3-2 and the product rule property, the Laplace transform of [tex]x_{2} (t)[/tex] can be expressed as: L{[tex]x_{2} (t)[/tex]} =[tex]-d/ds [(20/(s+2)^2 - 4/(s+2)^2)][/tex]= [tex](40s+88)/(s+2)^3[/tex]
where[tex]te^-2t[/tex] is the time function, sin4t is the sine function with a frequency of 4, and u(t) is the unit step function.
(e) Using Table 3-2 and the time-shift property, the Laplace transform of [tex]x_{3} (t)[/tex] can be expressed as: L{[tex]x_{3} (t)[/tex]} = [tex]10/(s+3)e^-4s[/tex]
where[tex]e^-3t[/tex] is the time function, u(t-4) is the unit step function shifted by 4 units to the right, and s is the Laplace transform variable.
Learn more about Laplace transform here:
https://brainly.com/question/31041670
#SPJ4
to make 6 servings of soup, you need 5 cups of chicken broth. you want to know how many servings you can make with 2 quarts of chicken broth. which proportion should you use?
since we cannot have a fraction of a serving, we can only make 9 servings of soup with 2 quarts (or 8 cups) of chicken broth. Therefore, the proportion we should use is 5 cups of chicken broth to 6 servings of soup.
To answer this question, we need to convert 2 quarts to cups. Since there are 4 cups in a quart, 2 quarts would be 8 cups.
Now that we know we have 8 cups of chicken broth, we can set up a proportion to determine how many servings of soup we can make.
5 cups of chicken broth = 6 servings of soup
x cups of chicken broth = y servings of soup
To solve for x and y, we can cross-multiply:
5y = 6x
x = 8 cups of chicken broth
y = (6/5) * 8 = 9.6 servings of soup
However, since we cannot have a fraction of a serving, we can only make 9 servings of soup with 2 quarts (or 8 cups) of chicken broth.
Therefore, the proportion we should use is 5 cups of chicken broth to 6 servings of soup.
To determine how many servings you can make with 2 quarts of chicken broth, you should set up a proportion using the given information: 6 servings require 5 cups of broth. First, convert 2 quarts to cups (1 quart = 4 cups, so 2 quarts = 8 cups). Now, set up the proportion:
6 servings / 5 cups = x servings / 8 cups
Here, x represents the number of servings you can make with 8 cups (2 quarts) of chicken broth. By cross-multiplying and solving for x, you will find the number of servings possible with the available broth.
Visit here to learn more about cross-multiply : https://brainly.com/question/30764437
#SPJ11
A particle is moving along the curve y = 2√5x + 11. As the particle passes through the point (5, 12), its x-coordinate increases at a rate of 5 units per second. Find the rate of change of the distance from the particle to the origin at this instant.
The rate of change of the distance from the particle to the origin at this instant is 12.247 units/second.
Let's call the distance from the particle to the origin at a certain point (x, y) as d(x, y). Then, by the Pythagorean theorem, we have:
d(x, y) = √(x^2 + y^2)
We want to find the rate of change of d(x, y) with respect to time t, which we can write as:
d/dt [d(x, y)]
To find this, we need to express d(x, y) in terms of t. We know that the particle is moving along the curve y = 2√5x + 11, so we can substitute this into the equation for d(x, y):
d(x, y) = √(x^2 + y^2) = √(x^2 + (2√5x + 11)^2)
Now we can use the chain rule to find d/dt [d(x, y)]:
d/dt [d(x, y)] = d/dt [√(x^2 + (2√5x + 11)^2)]
= (1/2) (x^2 + (2√5x + 11)^2)^(-1/2) * d/dt [x^2 + (2√5x + 11)^2]
We already know that dx/dt = 5, so we just need to find dy/dt:
dy/dx = d/dx [2√5x + 11] = √5
dy/dt = dy/dx * dx/dt = √5 * 5 = 5√5
Now we can substitute dx/dt and dy/dt into the expression we found for d/dt [d(x, y)]:
d/dt [d(x, y)] = (1/2) (x^2 + (2√5x + 11)^2)^(-1/2) * (2x + 4(2√5x + 11) dx/dt)
= (1/2d(x, y)) (x + 4(√5x + 11)) dx/dt
Finally, we can substitute the values for x and dx/dt that we know from the problem:
x = 5
dx/dt = 5
And we can substitute the expression we found for d(x, y) back into the equation for d/dt [d(x, y)]:
d/dt [d(x, y)] = (1/2√(x^2 + (2√5x + 11)^2)) (x + 4(√5x + 11)) dx/dt
= (1/2√(5^2 + (2√5(5) + 11)^2)) (5 + 4(√5(5) + 11)) (5)
Simplifying this expression gives:
d/dt [d(x, y)] ≈ 12.247 units/second
So the rate of change of the distance from the particle to the origin at the instant when the particle passes through the point (5, 12) is approximately 12.247 units/second.
Learn more about "rate of change":
https://brainly.com/question/8728504
#SPJ11
find the inverse laplace transform f(t)=l−1{f(s)} of the function f(s)=−e−4s(4s 6)s2 64. you may use h(t) for the heaviside step function.
The inverse Laplace transform of f(s) = -e^(-4s) (4s+6)/(s^2+6^2) is f(t) = -2e^(-2t) sin(6t) u(t).
To find the inverse Laplace transform of f(s), we first factor the denominator of f(s) to obtain f(s) = -e^(-4s) (4s+6)/[(s+3i)(s-3i)]. Then we use partial fraction decomposition to write f(s) as f(s) = A/(s+3i) + B/(s-3i), where A and B are constants. Solving for A and B, we get A = -2/(3i+2) and B = 2/(3i-2).
Next, we use the table of Laplace transforms to find the inverse Laplace transforms of A/(s+3i) and B/(s-3i). We have L^-1[A/(s+3i)] = -2e^(-3t) sin(6t) u(t) and L^-1[B/(s-3i)] = 2e^(3t) sin(6t) u(t). Thus, the inverse Laplace transform of f(s) is f(t) = L^-1[f(s)] = L^-1[A/(s+3i)] + L^-1[B/(s-3i)] = -2e^(-3t) sin(6t) u(t) + 2e^(3t) sin(6t) u(t) = -2e^(-2t) sin(6t) u(t).
To know more about Laplace transform, refer here:
https://brainly.com/question/30404106#
#SPJ11
A baby giraffe is 20 pounds lighter than a baby elephant. The two babies have a combined weight of 110 pounds. How much does each animal weigh
Find the Particular Solution for the differential = y(x-2) with the initial condition (4,5) 3. Find the General Solution for = x(x + 12) 4. Use the initial Condition (1.3) to find the Particular Solution to = y(1 - **)
1. The general solution will be y(x) = Ce^(2x), where C is a constant. Now, apply the initial condition (4,5): 5 = Ce^(8). Solving for C, we get C = 5/e^8. So the particular solution is y(x) = (5/e^8)e^(2x).
2. For the general solution of y'(x) = x(x + 12), first integrate both sides of the equation with respect to x to obtain the antiderivative. This gives y(x) = (1/3)x^3 + 6x^2 + C,
3. To find the particular solution using the initial conditions (1,3).Therefore, the particular solution is y(x) = (1/3)x^3 + 6x^2 - 20/3.
For the first question, we need to use the method of integrating factors to find the particular solution. The integrating factor is e^(∫(x-2) dx) = e^(x^2/2 - 2x), which we can use to rewrite the differential equation as (e^(x^2/2 - 2x) y)' = e^(x^2/2 - 2x) (x-2). Integrating both sides with respect to x, we get e^(x^2/2 - 2x) y = ∫e^(x^2/2 - 2x) (x-2) dx. Evaluating the integral, we get e^(x^2/2 - 2x) y = -1/2 e^(x^2/2 - 2x) (x-2)^2 + C, where C is a constant of integration. Plugging in the initial condition (4,5), we can solve for C to get the particular solution y = -1/2 (x-2)^2 + 5.
For the second question, we can use the method of separation of variables to find the general solution. Separating the variables and integrating, we get ∫(1/y) dy = ∫(x+12) dx, which simplifies to ln|y| = (1/2)x^2 + 12x + C, where C is a constant of integration. Exponentiating both sides, we get |y| = e^(1/2 x^2 + 12x + C), which can be rewritten as y = ±e^(1/2 x^2 + 12x + C). Therefore, the general solution is y = C1 e^(1/2 x^2 + 12x) + C2 e^(-1/2 x^2 - 12x), where C1 and C2 are constants of integration.
For the third question, we can use the same method as the first question, but with a different integrating factor. The integrating factor is e^(∫(1-**) dx) = e^(x - **x^2/2), which we can use to rewrite the differential equation as (e^(x - **x^2/2) y)' = e^(x - **x^2/2) (1-**). Integrating both sides with respect to x, we get e^(x - **x^2/2) y = ∫e^(x - **x^2/2) (1-**) dx. Evaluating the integral, we get e^(x - **x^2/2) y = (1-**/2) e^(x - **x^2/2) + C, where C is a constant of integration. Plugging in the initial condition (1,3), we can solve for C to get the particular solution y = (1-**/2) e^(x - **x^2/2) + **/2 + 2.
Learn more about equation:
brainly.com/question/29657983
#SPJ11
Consider the following function, f(x) = 8 cos pi x/squareroot x what conclusions can be made about series sigma^infinity_n=1 8 cos pin/squareroot n and the integral Test? The integral Test can be used to determine whether the series is convergent since the function is positive and decreasing on (1, infinity). The integral Test can be used to determine whether the series is convergent since the function is not positive and decreasing on (1, infinity). The integral Test can be used to determine whether the series is convergent since it does not matter if the function is positive and decreasing on (1, infinity). The integral Test cannot be used to determine whether the series is convergent since the function is positive and not decreasing on (1, infinity). There is not enough information to determine whether or not the Integral Test can be used or not.
The function f(x) = 8 cos(pi x)/sqrt(x) and the series sigma^infinity_n=1 (8 cos(pi n)/sqrt(n)), the correct conclusion is:
The integral test can be used to determine whether the series is convergent since the function is positive and decreasing on (1, infinity).
This is because the function f(x) is positive for x > 0, as cosine has a maximum value of 1 and the square root of x is always positive for x > 0.
Additionally, the function is decreasing on (1, infinity) because the denominator, sqrt(x), increases as x increases, which causes the overall function value to decrease.
Therefore, the integral test can be applied to determine the convergence of the series.
Learn more about "convergence": https://brainly.com/question/17019250
#SPJ11
Use the inner product (A,B) = 2a11b11 + a12b12 + a21b21 + 2a22b22 to find (a) (A, B), (B) ll A ll, (c)ll B ll, and (d) d (A, B) for matrices in M2,2A = [1 0 B = [0 10 1], 1 0]
As per the matrix, the values of ||A|| is √(22), ||B|| is √(5) and the value of d(A, B) is 3√(5)
Given matrices A and B in M2.2, we are asked to find (A, B), ||A||, ||B||, and d(A, B) using the inner product (A, B) = 2a11b11 + a21b21 + a12b12 + 2a22b22.
Firstly, let's compute the inner product of A and B. We substitute the values of A and B into the given inner product expression and get:
(A, B) = 2(2)(0) + 1(0) + 4(-2) + 2(-1)(1) = -10
Next, let's calculate the norms of A and B. The norm of a matrix is defined as the square root of the sum of the squares of all its elements. Therefore,
||A|| = √(2² + 1² + 4² + (-1)²) = √(22)
and
||B|| = √(0² + 0² + (-2)² + 1²) = √(5).
Finally, we can compute the distance between A and B using the norm and inner product. The distance between two matrices A and B is defined as d(A, B) = ||A - B||, where ||A - B|| is the norm of the difference between A and B. Therefore,
d(A, B) = ||A - B|| = ||[2 1 4 -1] - [0 0 -2 1]||
= ||[2 1 6 -2]||
= √(2² + 1² + 6² + (-2)²)
= √(45)
= 3√(5).
To know more about matrix here
https://brainly.com/question/28180105
#SPJ4
Complete Question:
Find (A, B), ||A||, ||B|, and d(A, B) for the matrices in M2.2 using the inner product (A, B) = 2a11b11 + a21b21 + a12b12 + 2a22b22 0 0
A = [ 2 1 4 -1]
B = [0 0 -2 1]
The unemployment rate in a city is 5.8%. There are 23,200 people who are unemployed and looking for work. How many people are not looking for work?
The number of people who are not looking for work will be 376,800.
The unemployment rate in a city is 5.8%. There are 23,200 people who are unemployed and looking for work.
The total number of people is calculated as,
⇒ 23,200 / 0.058
⇒ 400,000
The number of people who are not looking for work will be given as,
⇒ 400,000 x (1 - 0.058)
⇒ 376,800
More about the percentage link is given below.
https://brainly.com/question/8011401
#SPJ1
2. Let g(x, y) = 2x2 – y2. Compute g(1, 2), g(2, 1), g(1, 1), g(-1, 1), and g(2, -1).
The answer is g(1, 2) = -2, g(2, 1) = 7, g(1, 1) = 1, g(-1, 1) = 1, and g(2, -1) = 17.
The given function is g(x, y) = 2x^2 - y^2.
Substituting x = 1 and y = 2, we get g(1, 2) = 2(1)^2 - (2)^2 = -2.
Substituting x = 2 and y = 1, we get g(2, 1) = 2(2)^2 - (1)^2 = 7.
Substituting x = 1 and y = 1, we get g(1, 1) = 2(1)^2 - (1)^2 = 1.
Substituting x = -1 and y = 1, we get g(-1, 1) = 2(-1)^2 - (1)^2 = 1.
Substituting x = 2 and y = -1, we get g(2, -1) = 2(2)^2 - (-1)^2 = 17.
Therefore, g(1, 2) = -2, g(2, 1) = 7, g(1, 1) = 1, g(-1, 1) = 1, and g(2, -1) = 17.
To know more about function refer to-
https://brainly.com/question/12431044
#SPJ11
a bin contains 21 balls, numbered 1 through 21. how many ways are there to pick a set of six balls from the bin in which at least one ball has an odd number?
To find the number of ways to pick a set of six balls from the bin in which at least one ball has an odd number, we can use the principle of inclusion-exclusion.
First, we find the total number of ways to pick a set of six balls from the bin, which is 21 choose 6 (written as C(21,6)) = 54264.
Next, we find the number of ways to pick a set of six balls from the bin in which all the balls have even numbers. There are only 10 even-numbered balls in the bin, so the number of ways to pick a set of six even-numbered balls is 10 choose 6 (written as C(10,6)) = 210.
Therefore, the number of ways to pick a set of six balls from the bin in which at least one ball has an odd number is:
C(21,6) - C(10,6) = 54264 - 210 = 54054.
So there are 54054 ways to pick a set of six balls from the bin in which at least one ball has an odd number.e
learn more about odd here:brainly.com/question/29377024
#SPJ11
Find the AVERAGE VALUE (MEAN VALUE) of:(a) y = f(x) = sin(2x) over the interval [0, pi/4](b) y = f(x)= 1/(x+1) over the interval [0, 2].
(a) The average value (mean value) of y = sin(2x) over the interval [0, pi/4] is (2-sqrt(2))/2.
(b) The average value (mean value) of y = 1/(x+1) over the interval [0, 2] is ln(3/2).
(a) To find the average value of y = sin(2x) over the interval [0, pi/4], we use the formula:
avg = (1/(b-a)) * integral from a to b of f(x) dx
where a = 0, b = pi/4, and f(x) = sin(2x).
Substituting the values, we get:
avg = (1/(pi/4 - 0)) * integral from 0 to pi/4 of sin(2x) dx
= (4/pi) * [-cos(2x)/2] from 0 to pi/4
= (4/pi) * [-cos(pi/2) + cos(0)]/2
= (2/pi) * [1 - 0]
= (2/pi)
Using a calculator, we can simplify this to approximately 0.6366. However, if we rationalize the denominator, we get:
avg = (2/pi) * (sqrt(2)-1)
= (2-sqrt(2))/2
which is the exact value of the average value.
(b) To find the average value of y = 1/(x+1) over the interval [0, 2], we again use the formula:
avg = (1/(b-a)) * integral from a to b of f(x) dx
where a = 0, b = 2, and f(x) = 1/(x+1).
Substituting the values, we get:
avg = (1/(2-0)) * integral from 0 to 2 of 1/(x+1) dx
= (1/2) * [ln(x+1)] from 0 to 2
=(1/2) * [ln(3) - ln(1)]
= (1/2) * ln(3)
Using a calculator, we can simplify this to approximately 0.5493.
For more questions like Integral click the link below:
https://brainly.com/question/22008756
#SPJ11
From a lot of 14 missiles, 4 are selected at random and fired. Suppose the lot contains 3 defective missiles that will not fire. (a) What is the probability that all 4 missiles will fire? (b) What is the probability that at most 2 will not fire? (a) The probability that all 4 missiles will fire is ______ (Round to four decimal places as needed.) (b) The probability that at most 2 will not fire is ______ (Round to four decimal places as needed.)
(a) The probability that all 4 missiles will fire is 0.3297.
(b) The probability that at most 2 missiles will not fire is 0.9576.
(a) The probability that all 4 missiles will fire can be calculated as follows:
The total number of ways to select 4 missiles from a lot of 14 missiles is given by the combination formula: C(14, 4) = 1001.
The number of ways to select 4 non-defective missiles from a lot of 11 non-defective missiles is given by the combination formula: C(11, 4) = 330.
Therefore, the probability that all 4 missiles will fire is:
P(all 4 fire) = C(11, 4) / C(14, 4) = 330 / 1001 = 0.3297 (rounded to four decimal places)
(b) The probability that at most 2 missiles will not fire can be calculated as follows:
The number of ways to select 4 missiles from a lot of 14 missiles that contain 3 defective missiles is given by the combination formula: C(11, 4) * C(3, 0) + C(11, 3) * C(3, 1) + C(11, 2) * C(3, 2) = 6084.
The number of ways to select 4 missiles from a lot of 14 missiles that do not contain any defective missiles is given by the combination formula: C(11, 4) * C(3, 0) = 330.
Therefore, the probability that at most 2 missiles will not fire is:
P(at most 2 do not fire) = [C(11, 4) * C(3, 0) + C(11, 3) * C(3, 1) + C(11, 2) * C(3, 2)] / C(14, 4) + C(11, 4) * C(3, 0) / C(14, 4) = 0.9576 (rounded to four decimal places)
Learn more about "probability": https://brainly.com/question/13604758
#SPJ11
i need help! please read picture!!!!
Answer:
C
Step-by-step explanation:
A conical water tank with vertex down has a radius of 12 feet at the top and is 27 feet high. If water flows into the tank at a rate of 10 ft3/min
A conical water tank with vertex down has a radius of 12 feet at the top and is 27 feet high. If water flows into the tank at a rate of 10 cubic feet per minute, the rate at which the water level rises depends on the volume of the cone at a specific moment.
The formula to find the volume of a cone is V = (1/3)πr²h, where V is the volume, r is the radius, and h is the height. Since the dimensions of the cone are given, you can use similar triangles to find the relationship between the radius (r) and the height (h) of the water in the tank at any moment.
Given: r_cone = 12 ft, h_cone = 27 ft, and dV/dt = 10 ft³/min.
Let r_water and h_water represent the radius and height of the water at any given moment. Using similar triangles, we have:
r_water / h_water = r_cone / h_cone
r_water = (12 ft / 27 ft) * h_water
Now, substitute this relationship into the cone volume formula:
V = (1/3)π((12 ft / 27 ft) * h_water)² * h_water
Differentiate this equation with respect to time to find the rate at which the water level rises:
dV/dt = d(π/3 * (144/729) * h_water³)/dt
10 ft³/min = (π/3 * (144/729)) * 3 * h_water² * dh_water/dt
Solve for dh_water/dt:
dh_water/dt = 10 ft³/min / (π * (144/729) * h_water²)
This equation shows the rate at which the water level rises (dh_water/dt) at any given moment based on the current height of the water (h_water) in the tank.
To learn more about radius visit;
brainly.com/question/13449316
#SPJ11
What would be the fastest way to solve this equation and equations just like it, x*y=-80 but x+y=-11. How could we find the values of x and y the fastest?
One way to solve this system of equations is to use the elimination method. You can solve for one variable in terms of the other using one equation and then substitute that expression into the other equation. For example, you can solve for x in terms of y using the second equation: x = -11 - y. Then substitute this expression for x into the first equation: (-11 - y) * y = -80. Solving this quadratic equation will give you the values of y, and then you can find the corresponding values of x.
4) The price of beef has inflated by 2%. If the price of beef inflates 2% compounded biannually, how lung will it take for the price of beef to triple?
It will take approximately 18.42 years for the price of beef to triple with a 2% inflation compounded biannually.
To find out how long it will take for the price of beef to triple with a 2% inflation compounded biannually, we'll use the compound interest formula:
Final amount = Initial amount * (1 + interest rate)^number of periods
Here, we want the final amount to be triple the initial amount, so we have:
3 * Initial amount = Initial amount * (1 + 0.02)^number of periods
Divide both sides by the Initial amount:
3 = (1 + 0.02)^number of periods
Now, we need to solve for the number of periods. To do this, we'll use the logarithm:
log(3) = log((1 + 0.02)^number of periods)
Using the logarithm property log(a^b) = b*log(a), we get:
log(3) = number of periods * log(1.02)
Now, we'll solve for the number of periods:
number of periods = log(3) / log(1.02) ≈ 36.84
Since the inflation is compounded biannually, we need to divide the number of periods by 2 to get the number of years:
number of years = 36.84 / 2 ≈ 18.42
So, it will take approximately 18.42 years for the price of beef to triple with a 2% inflation compounded biannually.
to learn more about compound interest formula click here:
brainly.com/question/28792777
#SPJ11
Solve f(t) =3t^2-e^-t-f(τ)e(t-τ)dτ for f(t)
The solution using the Laplace transform is f(t) = 3t^2 - e^-t + ∫0^t f(τ)e^(τ-t)dτ.
To solve for f(t) in the equation f(t) = 3t^2 - e^-t - f(τ)e^(t-τ)dτ, we need to use the Laplace transform. We will apply the Laplace transform on both sides of the equation, and then solve for F(s), where F(s) is the Laplace transform of f(t).
Applying the Laplace transform on both sides of the equation, we get F(s) = 3(2/s^3) - (1/(s+1)) - F(s)E(s), where E(s) is the Laplace transform of e^(t-τ)dτ.
We can simplify this expression to solve for F(s):
F(s) + F(s)E(s) = 6/s^3 - 1/(s+1)
F(s) (1 + E(s)) = 6/s^3 - 1/(s+1)
F(s) = (6/s^3 - 1/(s+1)) / (1 + E(s))
Finally, we need to find the inverse Laplace transform of F(s) to get the solution for f(t). This can be done using partial fractions and the inverse Laplace transform tables.
Hence the solution is f(t) = 3t^2 - e^-t + ∫0^t f(τ)e^(τ-t)dτ.
To know more about the Laplace transform refer here
https://brainly.com/question/30759963#
#SPJ11
Use the frequency histogram to complete the following parts. Female Fibula Lengths (a) Identify the class with the greatest, and the class with the least, relative frequency. (b) Estimate the greatest and least relative frequencies (c) Describe any patterns with the data. 0.25- 0.2 0.15 0.1 0.0 2 0.5 31.5 32.5 33.5 34.5 35.5 365 37.5 38.5 39.5 Length (in centimeters) (a) The class with the greatest relative frequency is to centimeters. Type integers or decimals. Do not round. Use ascending order.) The class with the least relative frequency is to centimeters Type integers or decimals. Do not round. Use ascending order.) (b) The greatest relative frequency is about (Round to two decimal places as needed.) The least relative frequency is about (Round to two decimal places as needed.) (c) What pattern does the histogram show? Click to select your answer(s) The least relative frequency is about (Round to two decimal places as needed.) (c) What pattern does the histogram show? O A. About two-thirds of females have a fibula length between 36 and 40 centimeters. B. About 25% of females have a fibula length between 32 and 33 centimeters. ° C. About 25% of females have a fibula length between 35 and 36 centimeters. O D. About two-thirds of females have a fibula length between 31 and 35 centimeters.
A frequency histogram is a chart that shows how often different values in a dataset occur. The x-axis shows the values or ranges of values (called bins or classes) and the y-axis shows the frequency or frequency density of each bin.
(a) The class with the greatest relative frequency is 35.5-36.5 centimeters. The class with the least relative frequency is 39.5-40.5 centimeters.
(b) The greatest relative frequency is about 0.25. The least relative frequency is about 0.0.
(c) The histogram shows that the majority of females have a fibula length between 35.5 and 36.5 centimeters, with a gradual decrease in frequency as the length increases or decreases from this range.
The histogram shows that the distribution of female fibula lengths is skewed to the right, meaning that there are more values on the lower end than on the higher end. It also shows that there are two modes or peaks in the distribution: one at 36.5 to 37.5 centimeters and another at 38.5 to 39.5 centimeters. This means that there are two groups of females with different fibula lengths
to learn more about frequency histogram click here:
brainly.com/question/30324250
#SPJ11
If I=E/X+Y, express in terms of I,E and Y
The expression in terms of I, E, and Y will be E / (I - Y).
Given that:
Equation, I = E/X + Y
The definition of simplicity is making something simpler to achieve or grasp while also making it a little less difficult.
Simplify the equation for X, then we have
I = E/X + Y
I - Y = E/X
X = E / (I - Y)
More about the simplification link is given below.
https://brainly.com/question/12616840
#SPJ1
The graph of part of an exponential function is given below. Write the domain and range as inequalities.
The graph of part of an exponential function is given, the range of this exponential function is y > 0.
An exponential function is a mathematical function that describes the growth or decay of a quantity at a constant rate over time. It is a function of the form:
f(x) = [tex]a^x[/tex]
where a is a positive constant, known as the base of the exponential function, and x is the independent variable, which can be any real number.
The domain of an exponential function is always the set of all real numbers. Therefore, the domain of this function is:
Domain: x ∈ ℝ
The range of this exponential function as per the given graph is all positive real numbers greater than zero. We can write this using interval notation as:
Range: y > 0
Therefore, the range of this exponential function is y > 0.
For more details regarding exponential function, visit:
https://brainly.com/question/14355665
#SPJ1