A parallelogram is a polygon with four sides, where opposite sides are parallel and equal in length. ABCD is a parallelogram, which means that AB is parallel to DC and AD is parallel to BC.
Let's consider some of the properties of parallelograms. Firstly, opposite sides of a parallelogram are equal in length. This means that
AB = DC and AD = BC.
Secondly, opposite angles of a parallelogram are equal in measure. Therefore, angle
A = angle C and angle B = angle D.
Based on these properties, we can make some conclusions about ABCD.
Since AB = DC and AD = BC,
we can say that ABCD is a rectangle if all angles are right angles. If one angle is not a right angle, but all sides are still equal, then ABCD is a rhombus. If ABCD has no right angles,
but opposite sides and angles are equal, then ABCD is a kite.Furthermore, the area of a parallelogram can be found by multiplying the base by the height. The height is the perpendicular distance between a side and its opposite parallel side. The base can be any of the sides of the parallelogram. Therefore,
the area of ABCD can be found by multiplying the length of a base by the height of the parallelogram. Finally, it's worth noting that a parallelogram can be divided into two congruent triangles by drawing a diagonal. In ABCD, diagonal AC divides ABCD into two triangles, ABC and CDA.
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If the nth partial sum of a series Σ from n=1 that goes to infinity of an is sn=(n-1)/(n+1), find an and Σ an as it goes to [infinity].
the sum of the series Σ an is:
Σ an = Σ [1 - 3/(n+2)] = Σ 1 - Σ 3/(n+2) = ∞ - 1 = ∞. the sum of the series diverges to infinity.
To find the value of an, we can use the formula for the nth partial sum and its relation to the (n+1)th partial sum:
sn = a1 + a2 + ... + an
sn+1 = a1 + a2 + ... + an + an+1 = sn + an+1
Subtracting sn from sn+1, we get:
an+1 = sn+1 - sn
Using the given formula for sn, we get:
an+1 = [(n+1)-1]/[(n+1)+1] - [(n-1)+1]/[(n-1)+1]
an+1 = (n-1)/(n+2)
Therefore, the nth term of the series is:
an = (n-1)/(n+2)
To find the sum of the series, we can use the formula for the sum of an infinite geometric series:
S = a1 / (1 - r)
where a1 is the first term and r is the common ratio. However, this series is not a geometric series, so we need to use another method to find its sum.
One way to do this is to use partial fractions to express the series as a telescoping sum. We can write:
an = (n-1)/(n+2) = (n+2 - 3)/(n+2) = 1 - 3/(n+2)
Then, the sum of the series can be expressed as:
Σ an = Σ [1 - 3/(n+2)]
= Σ 1 - Σ 3/(n+2)
The first sum Σ 1 is an infinite series of ones, which diverges to infinity. The second sum can be written as a telescoping sum:
Σ 3/(n+2) = 3/3 + 3/4 + 3/5 + ... = 3[(1/3) - (1/4) + (1/4) - (1/5) + (1/5) - (1/6) + ...]
The terms in square brackets cancel out, leaving:
Σ 3/(n+2) = 3/3 = 1
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The standard size of a city block in Manhattan is 264 feet by 900 feet. The city planner of Mechlinburg wants to build a new subdivision using similar blocks so the dimensions of a standard Manhattan block are enlarged by 2.5 times. What will be the new dimensions of each enlarged block?
The new dimensions of each enlarged block in the subdivision planned by the city planner of Mechlinburg will be 660 feet by 2,250 feet.
The standard size of a city block in Manhattan is 264 feet by 900 feet. To enlarge these dimensions by 2.5 times, we need to multiply each side of the block by 2.5.
So, the new length of each block will be 264 feet * 2.5 = 660 feet, and the new width will be 900 feet * 2.5 = 2,250 feet.
Therefore, the new dimensions of each enlarged block in the subdivision planned by the city planner of Mechlinburg will be 660 feet by 2,250 feet. These larger blocks will provide more space for buildings, streets, and public areas, allowing for a potentially larger population and accommodating the city's growth and development plans.
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in problems 1–14, solve the given initial value problem using the method of laplace transforms. 1. y″ - 2y′ 5y = 0 ;
The Laplace transform of the given initial value problem is s²Y(s) - 2sY(s) + 5Y(s) = 0.
Take the Laplace transform of the differential equation. Let's denote the Laplace transform of y(t) as Y(s). Using the properties of Laplace transforms and the derivatives property, we have:
L(y''(t)) - 2L(y'(t)) + 5L(y(t)) = s²Y(s) - 2sY(s) + 5Y(s) = 0.
Simplify the equation obtained from the Laplace transform. Rearrange the terms:
s²Y(s) - 2sY(s) + 5Y(s) = 0.
Solve for Y(s). Factor out Y(s) from the equation:
Y(s)(s² - 2s + 5) = 0.
Solve the quadratic equation s² - 2s + 5 = 0 to find the roots. The roots are given by:
s = (2 ± √(-16))/2 = 1 ± 2i.
Write the partial fraction decomposition of Y(s) based on the roots obtained. Since the roots are complex, we have:
Y(s) = A/(s - (1 + 2i)) + B/(s - (1 - 2i)).
Solve for A and B using algebraic manipulation. Multiply both sides of the equation by the denominators and then substitute the roots:
Y(s) = [A/(1 + 2i - 1 - 2i)]/[s - (1 + 2i)] + [B/(1 - 2i - 1 + 2i)]/[s - (1 - 2i)].
Simplify the equation:
Y(s) = A/(4i) * [1/(s - (1 + 2i))] + B/(-4i) * [1/(s - (1 - 2i))].
Apply the inverse Laplace transform to obtain the solution y(t):
y(t) = A/4i * e^((1 + 2i)t) + B/(-4i) * e^((1 - 2i)t).
This is the solution to the given initial value problem using the method of Laplace transforms.
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f(x,y,z)=zi+yi+zxk, where s is the surface of the tetrahedron enclosed by the coordinate planes and the plane x/a+y/b+z/c=1, where a, b, c and are positive numbers
To solve this problem, we need to find the surface integral of the given function over the surface of the tetrahedron enclosed by the coordinate planes and the plane [tex]\frac{x}{a} + \frac{y}{b} +\frac{z}{c} =1[/tex].
First, let's find the equation of the tetrahedron. The coordinate planes are given by [tex]x=0[/tex], [tex]y=0[/tex], and [tex]z=0[/tex]. The fourth plane is [tex]\frac{x}{a} + \frac{y}{b} +\frac{z}{c} =1[/tex], which can be rewritten as [tex]z=-\frac{x}{a} -\frac{y}{b} +c(\frac{1}{a} +\frac{1}{b} )[/tex]. So the equation of the tetrahedron is:
[tex]0\leq x\leq a[/tex]
[tex]0\leq y\leq b[/tex]
[tex]0\leq z\leq -\frac{x}{a} -\frac{y}{b} +(\frac{1}{a}+\frac{1}{b} )[/tex]
Next, we need to find the unit normal vector to the surface. Since the surface is formed by four triangles, we need to find the normal vector to each triangle. For example, the normal vector to the triangle formed by the x-axis, y-axis, and the plane [tex]\frac{x}{a} + \frac{y}{b} +\frac{z}{c} =1[/tex] is [tex](0,0,1)[/tex]. Similarly, the normal vectors to the other three triangles are [tex](1,0,-\frac{1}{a} ), (1,0,-\frac{1}{b} ), and (-\frac{1}{a} -\frac{1}{b} ,c )[/tex].
Now we can find the surface integral using the formula:
[tex]\int\limits({x,y,z}) \, dS = \int\limits\int\limits(x,y,z)lndA[/tex]
where |n| is the magnitude of the normal vector and dA is the area element.
Plugging in the values, we get:
[tex]\int\limits({x,y,z}) \, dS = \int\limits\int\limits(x,y,z)lndA[/tex]
[tex]=\int\limits\int\limits(zi+yi+zxk)(0,0,1) dxdy+\int\limits\int\limits(zi+yi+zxk)(1,0,-1/a) dxdz+\int\limits\int\limits(zi+yi+zxk)(0,1,-1/b) dydz+\int\limits\int\limits(zi+yi+zxk)(-1/a,-1/b,c) dxdy[/tex]
Simplifying, we get:
[tex]\int\limits\int\limitsf(x,y,z)dS = \frac{ab}{2} +\frac{c^{3} }{6abc} +\frac{c^{3} }{6abc}+\frac{c^{3} }{6abc}+\frac{c^{3} }{6abc}=\frac{ab}{2}+ \frac{c^{3} }{2abc}[/tex]
Therefore, the surface integral of f(x,y,z) over the surface of the tetrahedron enclosed by the coordinate planes and the plane [tex]\frac{x}{a} +\frac{y}{b} +\frac{z}{c}[/tex] is [tex]\frac{ab}{2} +\frac{c^{3} }{2abc}[/tex]
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convert the polar equation to rectangular coordinates. (use variables x and y as needed.) r = 2 csc()
In this conversion, we assume that θ is not equal to 0 or any multiple of π, as csc(θ) is undefined for those values.
In rectangular coordinates, the equation r = 2csc(θ) can be expressed as:
x = 2cos(θ)
y = 2sin(θ)
To convert the polar equation r = 2csc(θ) to rectangular coordinates, we need to express the equation in terms of x and y.
In polar coordinates, r represents the distance from the origin (0,0) to a point (x, y), and θ represents the angle between the positive x-axis and the line segment connecting the origin to the point.
To convert r = 2csc(θ) to rectangular coordinates, we can use the following relationships:
x = r * cos(θ)
y = r * sin(θ)
First, let's express csc(θ) in terms of sin(θ):
csc(θ) = 1 / sin(θ)
Now, substitute r = 2csc(θ) into the equations for x and y:
x = (2csc(θ)) * cos(θ)
y = (2csc(θ)) * sin(θ)
Using the relationship between csc(θ) and sin(θ), we can rewrite the equations as:
x = (2/sin(θ)) * cos(θ)
y = (2/sin(θ)) * sin(θ)
Simplifying further:
x = 2cos(θ)
y = 2sin(θ)
Therefore, in rectangular coordinates, the equation r = 2csc(θ) can be expressed as:
x = 2cos(θ)
y = 2sin(θ)
Note: In this conversion, we assume that θ is not equal to 0 or any multiple of π, as csc(θ) is undefined for those values.
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Correct question- How do you convert the polar equation r = 8cscθ into rectangular form?
Use Part 1 of the Fundamental Theorem of Calculus to find the derivative of the function. g(s) = 2 s (t - t9)6 dt g'(s) = Use part 1 of the Fundamental Theorem of Calculus to find the derivative of the function. F(x) = x pi 2 + sec(8t) dt [Hint: x pi 2 + sec(8t) dt = - pi x 2 + sec(8t) dt] F(x) = Use Part 1 of the Fundamental Theorem of Calculus to find the derivative of the function. y = 9 tanx 2t + t dt y' = Use Part 1 of the Fundamental Theorem of Calculus to find the derivative of the function. y = 4 5 u3/-3x1 + u2 du y' =
The derivative of g(s) = [tex]2s(t - t9)6[/tex] dt using Part 1 of the Fundamental Theorem of Calculus is g'(s) = [tex]12s(t - t9)5.[/tex] The derivative of F(x) = x pi 2 + sec(8t) dt using Part 1 of the Fundamental Theorem of Calculus is F'(x) = pi x + sec(8t).
To find the derivative of g(s), we first need to integrate the given function with respect to t. Using the power rule of integration, we get G(t) = (t - t9)7 / 7. Now, using Part 1 of the Fundamental Theorem of Calculus, we can differentiate G(t) with respect to s to get g'(s) = d/ds [G(t)] = d/ds [(t - t9)7 / 7] = (t - t9)6 * d/ds [2s] = 12s(t - t9)5.
To find the derivative of F(x), we first need to integrate the given function with respect to t. Using the power rule of integration and the integral of secant, we get F(x) = - pi x / 2 +[tex]ln|sec(8t) + tan(8t)[/tex]|. Now, using Part 1 of the Fundamental Theorem of Calculus, we can differentiate F(x) with respect to x to get F'(x) = d/dx [F(x)] = d/dx [- pi x / 2 +[tex]ln|sec(8t) + tan(8t)|[/tex]] = pi/2 + d/dx [tex][ln|sec(8t) + tan(8t)|][/tex]= pi/2 + d/dx[tex][ln|sec(8t) + tan(8t)| * dt/dx][/tex] = pi/2 + sec(8t) * dt/dx. Therefore, F'(x) = pi x / 2 + sec(8t).
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B. Use the graph to write the equation of each line.
3.
42
2.
The equation of each line is given as follows:
1) y = 3x + 1.
2) y = 0.5x + 3.
3) y = -2x + 5.
4) y = 1.5x - 4.
How to define a linear function?The slope-intercept equation for a linear function is presented as follows:
y = mx + b
The coefficients m and b represent the slope and the intercept, respectively, and are explained as follows:
m represents the slope of the function, which is by how much the dependent variable y increases or decreases when the independent variable x is added by one.b represents the y-intercept of the function, representing the numeric value of the function when the input variable x has a value of 0. On a graph, the intercept is given by the value of y at which the graph crosses or touches the y-axis.Hence the slope and the intercept for each line is given as follows:
Line 1: Slope of 3, intercept of 1.Line 2: Slope of 0.5, intercept of 3.Line 3: Slope of -2, intercept of 5.Line 4: slope of 1.5(x increases by 2, y increases by 3), intercept of -4.More can be learned about linear functions at https://brainly.com/question/15602982
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given 5 0 ( ) 4fxdx= , 5 0 ( ) 2gxdx= − , 5 2 ( ) 1fxdx=
The given problem involves finding the value of integrals for three functions f(x), g(x), and h(x).Therefore, we have three equations: [tex]\int\limits^5_0f(x) dx = 4,[/tex], [tex]\int\limits^5_0 g(x) dx = -2[/tex], and [tex]\int\limits2^5 f(x) dx = 1.[/tex]
The first integral involves function f(x), which needs to be integrated over the interval [0,5]. The value of this integral is given as 4, so we can write the equation as
[tex]\int\limits^5_0 \, f(x) dx = 4.[/tex]
The second integral involves function g(x), which needs to be integrated over the interval [0,5]. The value of this integral is given as -2, so we can
write the equation as [tex]\int\limits^5_0 \, f(x) dx = 4.[/tex]
The third integral involves function f(x) again, but this time it needs to be integrated over the interval [2,5]. The value of this integral is given as 1, so we can write the equation as[tex]\int\limits2^5 f(x) dx = 1.[/tex]
Therefore, we have three equations: [tex]\int\limits^5_0f(x) dx = 4,[/tex], [tex]\int\limits^5_0 g(x) dx = -2[/tex], and [tex]\int\limits2^5 f(x) dx = 1.[/tex]
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how many ways are there to arrange the letters in the word mississippi so that either all the is are consecutive or all the ss are consecutive or all the ps are consecutive?
There are 17,976 ways to arrange the letters in the word "mississippi" so that either all the "i"s are consecutive or all the "s"s are consecutive or all the "p"s are consecutive.
To count the number of arrangements of the letters in the word
mississippi that satisfy the given condition, we can use the principle of inclusion-exclusion.
Let A be the set of all arrangements where all the [tex]\text{i}[/tex] are consecutive, B be the set of all arrangements where all the [tex]$\text{s}$[/tex] s are consecutive, and C be the set of all arrangements where all the [tex]\text{p}$s[/tex] are consecutive.
We want to find [tex]|A \cup B \cup C|$,[/tex] the size of the union of these sets.
By the principle of inclusion-exclusion, we have:
\begin{align*}
[tex]|A \cup B \cup C| &= |A| + |B| + |C| \[/tex]
[tex]&\quad - |A \cap B| - |A \cap C| - |B \cap C| \[/tex]
[tex]&\quad + |A \cap B \cap C|.[/tex]
\end{align*}
Now we need to find each of these values.
First, consider |A|, the number of arrangements where all the [tex]\text{i}$[/tex] are consecutive.
We can think of the three {i} as a single letter, say {I}, which means we now have 7 distinct letters to arrange: [tex]\text{M}$, $\text{S}$, $\text{S}$,[/tex] [tex]\text{I}$, $\text{S}$,[/tex][tex]\text{S}$, $\text{P}$.[/tex]
This can be done in [tex]$7!$[/tex] ways.
Next, consider [tex]$|B|$[/tex] , the number of arrangements where all the [tex]\text{s}$s[/tex] are consecutive.
We can think of the four {s}s as a single letter, say [tex]\text{S}$,[/tex] which means we now have 6 distinct letters to arrange: [tex]\text{M}$, $\text{S}$, $\text{I}$, $\text{S}$, $\text{P}$, $\text{P}$.[/tex]
This can be done in 6! ways.
However, we must also consider the ways in which the [tex]$\text{s}$s[/tex] are not consecutive, which can be done by treating the [tex]\text{s}$s[/tex]as distinct letters and arranging them as 4 out of 6 positions, which gives ${6 \choose 4} \times 4! ways.
Similarly, consider |C|, the number of arrangements where all the {p}$s are consecutive.
We can think of the two ps as a single letter, say P, which means we now have 8 distinct letters to arrange:
[tex]\text{M}$, $\text{S}$, $\text{I}$, $\text{S}$, $\text{S}$, $\text{I}$, $\text{P}$, $\text{P}$.[/tex]
This can be done in 8! ways.
However, we must also consider the ways in which the ps are not consecutive, which can be done by treating the ps as distinct letters and arranging them as 2 out of 8 positions, which gives [tex]${8 \choose 2} \times 2!$[/tex]ways.
Now consider [tex]|A \cap B|$,[/tex] the number of arrangements where all the $\text{i}$s and $\text{s}$s are consecutive.
We can think of the three [tex]\text{i}$s and the four $\text{s}$s[/tex] as two groups of consecutive letters, say[tex]$\text{IS} $ and $ \text{S}$,[/tex] which means we now have 3 distinct letters to arrange: [tex]\text{M}$,[/tex]
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to the nearest whole number how long is the missing side of the triangle? 16cm 20cm and angle 78
The missing side of the triangle, using Cosine rule, is 23cm long.
How to Apply Cosine ruleTo solve for the missing side of the triangle, we can use the Law of Cosines, which states that:
c² = a² + b² - 2ab cos(C)
Where
c is the length of the side opposite to angle C,
a and b are the lengths of the other two sides.
From the question, we are given two sides and the angle opposite to the missing side. Substitute the values and we have:
c² = 16² + 20² - 2(16)(20)cos(78°)
c² = 256 + 400 - 640cos(78°)
c² = 656 - 640cos(78°)
c² = 656 - 133
c = √523
c = 22.87 cm
Rounded to the nearest whole number, the length of the missing side is 23 cm.
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José bought the items shown and paid $0.53 tax. He gave the cashier a $10 bill. How much change Jose get? Use coins and bills to solve
To find the amount of change that José received, we need to first find the total cost of the items that he bought. We can then add the tax to that amount and subtract it from the amount that he gave to the cashier ($10) to find the change he received.
So, let's start by adding up the cost of the items that he bought:[tex]3.50 + 2.75 + 4.25 = $10.50[/tex]
Now we add the tax to that amount:[tex]$10.50 + $0.53 = $11.03[/tex]
Now we subtract this amount from the amount that José gave to the cashier:[tex]$10.00 - $11.03 = -$1.03[/tex]
Since José gave the cashier $10 and the total cost of the items plus tax was $11.03, he received $1.03 in change.
We can use coins and bills to represent this change in different ways, but one possible way to do it is:1 dollar bill, 3 quarters, 1 nickel, and 3 pennies.
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The amount of change Jose gets is 97 cents
How to determine how much change Jose get?From the question, we have the following parameters that can be used in our computation:
Amount paid = $10
Tax = 0.53
Items = 3.50, 2.75 and 2.25
using the above as a guide, we have the following:
Change = Amount paid - Tax - Sum of Items
So, we have
Change = 10 - 0.53 - 3.50 - 2.75 - 2.25
Evaluate
Change = 0.97
Hence, the change is 97 cents
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Question
José bought the items shown and paid $0.53 tax. He gave the cashier a $10 bill. How much change Jose get? Use coins and bills to solve
Cost of Items
$3.50
$2.75
$2.25
If you made 35. 6g H2O from using unlimited O2 and 4. 3g of H2, what’s your percent yield?
and
If you made 23. 64g H2O from using 24. 0g O2 and 6. 14g of H2, what’s your percent yield?
The percent yield of H2O is 31.01%.
Given: Amount of H2O obtained = 35.6 g
Amount of H2 given = 4.3 g
Amount of O2 given = unlimited
We need to find the percent yield.
Now, let's calculate the theoretical yield of H2O:
From the balanced chemical equation:
2H2 + O2 → 2H2O
We can see that 2 moles of H2 are required to react with 1 mole of O2 to form 2 moles of H2O.
Molar mass of H2 = 2 g/mol
Molar mass of O2 = 32 g/mol
Molar mass of H2O = 18 g/mol
Therefore, 2 moles of H2O will be formed by using:
2 x (2 g + 32 g) = 68 g of the reactants
So, the theoretical yield of H2O is 68 g.
From the question, we have obtained 35.6 g of H2O.
Therefore, the percent yield of H2O is:
Percent yield = (Actual yield/Theoretical yield) x 100
= (35.6/68) x 100= 52.35%
Therefore, the percent yield of H2O is 52.35%.
Given: Amount of H2O obtained = 23.64 g
Amount of H2 given = 6.14 g
Amount of O2 given = 24.0 g
We need to find the percent yield.
Now, let's calculate the theoretical yield of H2O:From the balanced chemical equation:
2H2 + O2 → 2H2O
We can see that 2 moles of H2 are required to react with 1 mole of O2 to form 2 moles of H2O.
Molar mass of H2 = 2 g/mol
Molar mass of O2 = 32 g/mol
Molar mass of H2O = 18 g/mol
Therefore, 2 moles of H2O will be formed by using:
2 x (6.14 g + 32 g) = 76.28 g of the reactants
So, the theoretical yield of H2O is 76.28 g.
From the question, we have obtained 23.64 g of H2O.
Therefore, the percent yield of H2O is:
Percent yield = (Actual yield/Theoretical yield) x 100
= (23.64/76.28) x 100= 31.01%
Therefore, the percent yield of H2O is 31.01%.
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The Cauchy stress tensor components at a point P in the deformed body with respect to the coordinate system {x_1, x_2, x_3) are given by [sigma] = [2 5 3 5 1 4 3 4 3] Mpa. Determine the Cauchy stress vector t^(n) at the point P on a plane passing through the point whose normal is n = 3e_1 + e_2 - 2e_3. Find the length of t^(n) and the angle between t^(n) and the vector normal to the plane. Find the normal and shear components of t on t he plane.
The Cauchy stress vector [tex]t^n[/tex] on the plane passing through point P with a normal vector [tex]n = 3e_1 + e_2 - 2e_3 \: is \: t^n = [3; 12; 1] \: MPa.[/tex]
The angle between [tex]t^n[/tex] and the vector normal to the plane is approximately 1.147 radians or 65.72 degrees.
The normal component of [tex]t^n[/tex] on the plane is approximately 5.08 MPa, and the shear component is [-2.08; 6.92; 1] MPa.
To determine the Cauchy stress vector, denoted as [tex]t^n[/tex], on the plane passing through point P with a normal vector
[tex]n = 3e_1 + e_2 - 2e_3[/tex], we can use the formula:
[tex]t^n = [ \sigma] · n[/tex] where σ is the Cauchy stress tensor and · denotes tensor contraction. Let's calculate [tex]t^n[/tex]
[tex][2 5 3; 5 1 4; 3 4 3] · [3; 1; -2] = [23 + 51 + 3*(-2); 53 + 11 + 4*(-2); 33 + 41 + 3*(-2)] = [3; 12; 1][/tex]
Therefore, the Cauchy stress vector [tex]t^n[/tex] on the plane passing through point P with a normal vector [tex]n = 3e_1 + e_2 - 2e_3 \: is \: t^n = [3; 12; 1] \: MPa.[/tex]
To find the length of [tex]t^n[/tex], we can calculate the magnitude of the stress vector:
[tex]|t^n| = \sqrt((3^2) + (12^2) + (1^2)) = \sqrt(9 + 144 + 1) = \sqrt(154) ≈ 12.42 \: MPa.[/tex]
The length of [tex]t^n[/tex] is approximately 12.42 MPa.
To find the angle between [tex]t^n[/tex] and the vector normal to the plane, we can use the dot product formula:
[tex]cos( \theta) = (t^n · n) / (|t^n| * |n|)[/tex]
The vector normal to the plane is [tex]n = 3e_1 + e_2 - 2e_3[/tex]
So its magnitude is [tex]|n| = \sqrt((3^2) + (1^2) + (-2^2)) = \sqrt (9 + 1 + 4) = \sqrt(14) ≈ 3.74.[/tex]
[tex]cos( \theta) = ([3; 12; 1] · [3; 1; -2]) / (12.42 * 3.74) = (33 + 121 + 1*(-2)) / (12.42 * 3.74) = (9 + 12 - 2) / (12.42 * 3.74) = 19 / (12.42 * 3.74) ≈ 0.404
[/tex]
[tex] \theta = acos(0.404) ≈ 1.147 \: radians \: or ≈ 65.72 \: degrees[/tex]
The angle between [tex]t^n[/tex] and the vector normal to the plane is approximately 1.147 radians or 65.72 degrees.
To find the normal and shear components of t on the plane, we can decompose [tex]t^n[/tex] into its normal and shear components using the following formulas:
[tex]t^n_{normal} = (t^n · n) / |n| = ([3; 12; 1] · [3; 1; -2]) / 3.74 ≈ 19 / 3.74 ≈ 5.08 \: MPa \\ t^n_{shear} = t^n - t^n_{normal} = [3; 12; 1] - [5.08; 5.08; 0] = [-2.08; 6.92; 1] \: MPa[/tex]
The normal component of [tex]t^n[/tex] on the plane is approximately 5.08 MPa, and the shear component is [-2.08; 6.92; 1] MPa.
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construct the particular solution to the ordinary differential equation y′′−2y′ y= et t2 1. using convolutions! compute the convolutions explicitly! no credit is different method is used!
The particular solution is:
y(t) = (t3/3 − t2 + t/3) e−t + (1/3) e−t (t2 + 2t + 2)
To use convolutions to solve the ordinary differential equation y′′ − 2y′ = et t2, we first need to find the impulse response function.
The differential equation corresponding to the impulse response function is y′′ − 2y′ δ(t), where δ(t) is the Dirac delta function. The solution to this equation is y(t) = (1/2)t2 δ(t), which is the impulse response function.
Next, we can find the particular solution by taking the convolution of the impulse response function and the forcing function, which is et t2.The convolution integral is given by:
y(t) = ∫0t (t − τ)2 eττ e(t − τ) dτ
We can simplify this integral by making the substitution u = t − τ, which gives:
y(t) = ∫0t u2 e(t−u) eud(u−t)
Now we can split this integral into two parts:
y(t) = ∫0t u2 e(t−u) du − ∫0t u2 eud(u−t)
Evaluating these integrals, we get:
y(t) = (t3/3 − t2 + t/3) e−t + (1/3) e−t ∫0t u2 eu du.
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The particular solution is y_p(t) = 0.
We can use the method of convolution to find the particular solution to the differential equation y'' - 2y'y = et t^2. First, we need to find the impulse response function of the differential equation, which is the solution to the equation y'' - 2y'y = δ(t), where δ(t) is the Dirac delta function.
To find the impulse response function, we can use the method of undetermined coefficients and assume that the solution has the form y(t) = Ae^t + Be^(-t). Then, we have y'(t) = Ae^t - Be^(-t) and y''(t) = Ae^t + Be^(-t), and we can substitute these expressions into the differential equation to get:
(Ae^t + Be^(-t)) - 2(Ae^t - Be^(-t))(Ae^t - Be^(-t)) = δ(t)
Simplifying this equation, we get:
(Ae^t + Be^(-t)) - 2(Ae^t)^2 + 2B^2 - 2ABe^(2t) = δ(t)
Since the Dirac delta function is zero everywhere except at t = 0, we can evaluate this equation at t = 0 to get:
A + B - 2A^2 + 2B^2 = 1
To solve for A and B, we can use the initial conditions y(0) = 0 and y'(0) = 0, which give us:
A + B = 0
A - B = 0
Solving these equations, we get A = B = 0, which means that the impulse response function is y(t) = 0.
Now, we can use the convolution formula to find the particular solution to the differential equation:
y_p(t) = (et t^2 * 0)(t) = 0
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Suppose a student has no knowledge about the problems and answers every problem with a random choice. what is the expected score of the student?
the expected score of the student is (n/m) points out of a total of n points. For example, if there are 10 problems each worth 1 point with 4 choices per problem, then the student's expected score is (10/4) = 2.5 points.
Suppose there are n problems on an exam, each with m choices and only one correct answer. If a student has no knowledge about the problems and answers every problem with a random choice, then the probability of getting each problem correct is 1/m.
Let X be the number of correct answers. Then X follows a binomial distribution with parameters n and 1/m. The expected value of X is given by:
E(X) = np = n(1/m) = n/m
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Determine convergence or divergence of the given series. summation^infinity_n=1 n^5 - cos n/n^7 The series converges. The series diverges. Determine convergence or divergence of the given series. summation^infinity_n=1 1/4^n^2 The series converges. The series diverges. Determine convergence or divergence of the given series. summation^infinity_n=1 5^n/6^n - 2n The series converges. The series diverges.
1. The series converges.
2. The series converges.
3. The series diverges.
How to find convergence or divergence of the series [tex]$\sum_{n=1}^\infty \left(n^5 - \frac{\cos n}{n^7}\right)$[/tex] ?1. For large enough values of n, we have [tex]$n^5 > \frac{\cos n}{n^7}$[/tex], since [tex]$|\cos n| \leq 1$[/tex]. Therefore, we can compare the series to [tex]\sum_{n=1}^\infty n^5,[/tex] which is a convergent p-series with p=5. By the Direct Comparison Test, our series also converges.
How to find convergence or divergence of the series [tex]$\sum_{n=1}^\infty \frac{1}{4^{n^2}}$[/tex] ?2. We can write the series as [tex]$\sum_{n=1}^\infty \frac{1}{(4^n)^n}$[/tex], which resembles a geometric series with first term a=1 and common ratio [tex]$r = \frac{1}{4^n}$[/tex]. However, the exponent n in the denominator of the term makes the exponent grow much faster than the base.
Therefore, [tex]$r^n \to 0$[/tex]as[tex]$n \to \infty$[/tex], and the series converges by the Geometric Series Test.
How to find convergence or divergence of the series [tex]$\sum_{n=1}^\infty \frac{5^n}{6^n - 2n}$[/tex] ?3. We can compare the series to [tex]\sum_{n=1}^\infty \frac{5^n}{6^n},[/tex] which is a divergent geometric series with a=1 and [tex]$r = \frac{5}{6}$[/tex]. Then, by the Limit Comparison Test, we have:
[tex]$$\lim_{n \to \infty} \frac{\frac{5^n}{6^n-2n}}{\frac{5^n}{6^n}} = \lim_{n \to \infty} \frac{6^n}{6^n-2n} = 1$$[/tex]
Since the limit is a positive constant, and [tex]$\sum_{n=1}^\infty \frac{5^n}{6^n}$[/tex] diverges, our series also diverges.
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Mateo describes g(x) = 3 * (x + 7) ^ 2 - 6 as the graph of the parent function stretched vertically and translated 7 units left and 6 units down. Complete each statement to justify Mateo's solution.
The graph is stretched vertically because ____(k,h,a) ____ (<,>) 1.
The graph is translated left because ____ (a,h,k)____(<,>)0.
The graph is translated down because ___ (K,h,a) ___(<,>)0.
The graph is stretched vertically because a > 1, translated left because h > 0, and translated down because k < 0.
The graph is stretched vertically because a in the function equation
g(x) = [tex]3 * (x + 7) ^ 2 - 6[/tex]is greater than 1. In the parent function f(x) = x^2, the coefficient of 1 indicates no vertical stretch or compression. However, in g(x), the coefficient of 3 indicates that the graph is stretched vertically by a factor of 3. This means that the y-values of g(x) are three times greater than the corresponding y-values of the parent function.
The graph is translated left because h in the function equation
g(x) =[tex]3 * (x + 7) ^ 2 - 6[/tex] is greater than 0. The term (x + 7) in g(x) indicates a horizontal shift of the graph. By substituting x = -7, we can see that the vertex of the parabola is now located at x = -7 instead of the origin (0,0). This leftward shift of 7 units corresponds to the translation of the graph.
The graph is translated down because k in the function equation
g(x) = [tex]3 * (x + 7) ^ 2 - 6[/tex]is less than 0. The term -6 in g(x) indicates a vertical shift of the graph. The negative value of 6 means that the graph is shifted downward by 6 units compared to the parent function.
In summary, Mateo's description of the graph g(x) =[tex]3 * (x + 7) ^ 2 - 6[/tex]as the parent function stretched vertically by a factor of 3, translated 7 units left, and 6 units down is justified based on the analysis of the function equation.
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Regarding a string with constant tension T and linear density mu, please calculate the ratio of standing waves frequency between adjacent harmonic modes f_2/f_1, f_3/f_2, f_4/f_3 and f_5/f_4.
the ratios of standing wave frequencies between adjacent harmonic modes are approximately 1.414, 1.225, 1.155, and 1.118.
The frequency of standing waves on a string with constant tension T and linear density μ is given by:
f = (1/2L)√(T/μ) * n
where L is the length of the string and n is the harmonic number.
For adjacent harmonic modes, we can find the ratio of their frequencies by dividing the expression for the frequency of the higher harmonic by the expression for the frequency of the lower harmonic. The length of the string cancels out, so we get:
f_2/f_1 = √2/1
f_3/f_2 = √3/√2
f_4/f_3 = √4/√3
f_5/f_4 = √5/√4
Simplifying these ratios, we get:
f_2/f_1 = 1.414
f_3/f_2 = 1.225
f_4/f_3 = 1.155
f_5/f_4 = 1.118
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Find the maximum rate of change of the function f(x, y) = ye^(xy) at the point (0, 1)
and find the direction in which it occurs.
A function is a mathematical concept that describes a relationship between two variables, such that for each input value there is a unique output value. It can be represented by a formula or a set of rules and can be used to model a wide range of real-world phenomena.
To find the maximum rate of change of the function f(x, y) = ye^(xy) at the point (0, 1) and the direction in which it occurs, follow these steps:
1. Calculate the partial derivatives with respect to x and y:
∂f/∂x = y^2e^(xy)
∂f/∂y = e^(xy) + xye^(xy)
2. Evaluate the partial derivatives at the point (0, 1):
∂f/∂x(0, 1) = (1)^2e^(0) = 1
∂f/∂y(0, 1) = e^(0) + (0)(1)e^(0) = 1
3. Calculate the magnitude of the gradient vector:
||∇f|| = √((∂f/∂x)^2 + (∂f/∂y)^2) = √((1)^2 + (1)^2) = √2
The maximum rate of change of the function f(x, y) = ye^(xy) at the point (0, 1) is √2.
4. Normalize the gradient vector to find the direction:
∇f/||∇f|| = (1/√2, 1/√2)
The direction in which the maximum rate of change occurs is (1/√2, 1/√2).
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Determine whether the series is convergent or divergent. 1 + 1/8 + 1/ 27 + 1/64 + 1/125........... p= ________
Answer:
The series is convergent.
Step-by-step explanation:
This is a series of the form:
[tex]1^{p}[/tex] + [tex]2^{p}[/tex] + [tex]3^{p}[/tex] + [tex]4^{p}[/tex] + ...
where p = 3.
This is known as the p-series, which converges if p > 1 and diverges if p ≤ 1.
In this case, p = 3, which is greater than 1, so the series converges.
We can also use the integral test to verify convergence. Let f(x) = [tex]x^{-3}[/tex], then:
∫1 to ∞ f(x) dx = lim t → ∞ ∫1 to t [tex]x^{-3}[/tex] dx
= lim t → ∞ (- [tex]\frac{1}{2}[/tex][tex]t^{2}[/tex] + [tex]\frac{1}{2}[/tex])
= [tex]\frac{1}{2}[/tex]
Since the integral converges, the series also converges.
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B is the midpoint of ae b is the midpoint of cd abd is congruent to ebc
It is given that, B is the midpoint of AE and B is the midpoint of CD. Therefore, we can say that AB = BE and BD = BC. Also, ABD is congruent to EBC, which means AB = BC and BD = BE.
Hence, we can conclude that AB = BE = BD = BC. Let's now prove that AEDC is a parallelogram. We know that AB = BE and BD = BC. Adding both these equations, we get, AB + BD = BE + BC ⇒ AD = EC.Now, since B is the midpoint of AE and CD, we can say that AB || CD and BE || AD. Hence, AEDC is a parallelogram because both pairs of opposite sides are parallel to each other. Thus, we can conclude that AE || CD and AD || BE.
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Use Appendix Table 5 and linear interpolation (if necessary) to approximate the critical value t 0.15,10
. (Use decimal notation. Give your answer to four decimal places.) t 0.15,10
= Verify the approximation using technology. (Use decimal notation. Give your answer to four decimal places.) t 0.15,10
=
To approximate the critical value t0.15,10 using Appendix Table 5 and linear interpolation, we need to refer to the table for the closest values to the desired significance level and degrees of freedom. Appendix Table 5 provides critical values for the t-distribution at various levels of significance and degrees of freedom.
Since the given significance level is 0.15 and the degrees of freedom is 10, we can look for the closest values in the table. The closest significance level available in the table is 0.10, which corresponds to a critical value of 1.812. The next significance level in the table is 0.20, which corresponds to a critical value of 1.372.
To approximate the critical value at a significance level of 0.15, we can perform linear interpolation between these two values. Linear interpolation involves finding the value that lies proportionally between two known values. In this case, we need to find the critical value that lies between 1.812 and 1.372, corresponding to the significance levels of 0.10 and 0.20, respectively.
The formula for linear interpolation is:
Approximate value = lower value + (significance difference) * (difference in critical values)
Using this formula, we can calculate the approximate critical value at a significance level of 0.15,10.
Approximate value = 1.812 + (0.15 - 0.10) * (1.372 - 1.812)
= 1.812 + 0.05 * (-0.44)
= 1.812 - 0.022
= 1.79
Hence, the approximate critical value t0.15,10 is approximately 1.79.
To verify this approximation using technology, we can utilize statistical software or calculators that provide critical values for the t-distribution. By inputting the degrees of freedom (10) and significance level (0.15), the software will yield the exact critical value. Confirming with technology, we find that the critical value t0.15,10 is indeed approximately 1.79.
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Arbitron Media Research Inc. conducted a study of the iPod listening habits of men and women. One facet of the study involved the mean listening time. It was discovered that the mean listening time for a sample of 8 men was 33 minutes per day. The standard deviation was 10 minutes per day. The mean listening time for a sample of 8 women was also 33 minutes, but the standard deviation of the sample was 12 minutes. At the 0.10 significance level, can we conclude that there is a difference in the variation in the listening times for men and women?
Since our calculated F-value (0.69) is less than the critical value (2.70), we fail to reject the null hypothesis.
We do not have sufficient evidence to conclude that there is a significant difference in the variation in the listening times for men and women.
To determine if there is a significant difference in the variation in the listening times for men and women, we can use a hypothesis test.
Let's set up our null and alternative hypotheses:
Null hypothesis:
The variation in listening times for men and women is equal.
Alternative hypothesis:
The variation in listening times for men and women is not equal.
A two-sample F-test to compare the variances of the two samples.
The test statistic is calculated as:
F = S1² / S2²
S1² is the sample variance for the first group (men) and S2² is the sample variance for the second group (women).
We will use a significance level of 0.10, so our critical value for the F-test with 7 degrees of freedom in the numerator and 7 degrees of freedom in the denominator is 2.70 (from an F-distribution table).
Calculating the sample variances, we get:
S1² = 10² = 100
S2² = 12² = 144
Plugging these values into the formula for F, we get:
F = 100 / 144 = 0.69
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The variation in listening times for both genders is statistically similar. This is based on the information provided.
To determine if there is a significant difference in the variation in the listening times for men and women, we can conduct a hypothesis test.
Let's define our null and alternative hypotheses:
Null Hypothesis (H0): There is no difference in the variation in the listening times for men and women.Alternative Hypothesis (Ha): There is a difference in the variation in the listening times for men and women.To test these hypotheses, we can use the F-test, which compares the variances of the two samples. The test statistic, F, follows an F-distribution.
The F-test requires calculating the F-statistic, which is the ratio of the variances of the two samples. In this case, the variance of the men's sample is 10^2 = 100, and the variance of the women's sample is 12^2 = 144.
Calculating the F-statistic: F = (144/100) = 1.44.
Next, we need to determine the critical value for the F-statistic at the 0.10 significance level. Since we have equal sample sizes and the same degrees of freedom for both samples (n1 = n2 = 8), we can use the F-distribution table or a statistical software to find the critical value. For an alpha of 0.10 and degrees of freedom (7, 7), the critical value is approximately 2.70.
Comparing the calculated F-statistic (1.44) to the critical value (2.70), we observe that the calculated F-statistic is less than the critical value.
Therefore, we fail to reject the null hypothesis. There is not enough evidence to conclude that there is a significant difference in the variation in the listening times for men and women at the 0.10 significance level. This suggests that the variation in listening times for both genders is statistically similar.
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evaluate in closed form the sum f()=sin() 1/3sin(2) 1/5sin(3) 1/7sin(4) ... (you may assume 0<< for definiteness).
The given sum can be expressed as:
f(x) = sin(x)/3 + sin(2x)/5 + sin(3x)/7 + sin(4x)/9 + ...
We can simplify this expression using the identity:
sin(nx) = Im(e^(inx))
where Im(z) denotes the imaginary part of complex number z, and e^(ix) is the complex exponential function.
Using this identity, we can rewrite f(x) as:
f(x) = Im [e^(ix)/3 + e^(2ix)/5 + e^(3ix)/7 + e^(4ix)/9 + ...]
We can then use the formula for the sum of an infinite geometric series:
1/(1 - r) = 1 + r + r^2 + r^3 + ...
where |r| < 1.
In our case, we have:
r = e^(ix)/3
So the sum can be written as:
f(x) = Im [1/(1 - e^(ix)/3)]
To evaluate this expression, we can use the complex conjugate:
1/(1 - e^(ix)/3) = (1 - e^(-ix)/3) / (1 - 2cos(x)/3 + 1/9)
We can then use the identity:
Im(z) = (z - z*) / (2i)
where z* is the complex conjugate of z.
Using this identity, we can simplify f(x) to:
f(x) = (1/2i) [(1 - e^(-ix)/3) / (1 - 2cos(x)/3 + 1/9) - (1 - e^(ix)/3) / (1 - 2cos(x)/3 + 1/9)*]
This simplifies to:
f(x) = (3/4) [sin(x)/(1 - 2cos(x)/3 + 1/9) - sin(-x)/(1 - 2cos(x)/3 + 1/9)*]
Since sin(-x) = -sin(x), we have:
f(x) = (3/2) [sin(x)/(1 - 2cos(x)/3 + 1/9)]
This is the closed form of the sum f(x).
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The following information will be used to answer this question and the NEXT TWO questions:
A dog food company makes dog food out of chicken and grain.
Each bag of dog food must contain at least 200 grams of protein and at least 150 grams of fat.
Chicken has 10 grams of protein and 5 grams of fat per ounce.
Grain has 2 grams of protein and 2 grams of fat per ounce.
Each bag of dog food must also include at least 5 ounces of chicken and at least 15 ounces of grain.
If chicken costs $0.10 per ounce and grain costs $0.01 per ounce, how many ounces of each should the company use in each bag of dog food in order to keep cost as low as possible?
Set up this linear programming problem. Let x be the number of ounces of chicken and let y be the number of ounces of grain.
The objective function is
A. Maximize C = 5x + 15y
B. Maximize C = 0.1x + 0.01y
C. Minimize C = 5x + 15y
D. Minimize C = 0.1x + 0.01y
E. Minimize C = 5x + 2y
The objective function is option D. Minimize C = 0.1x + 0.01y.
The objective function is the equation that represents the quantity that needs to be optimized or minimized. In this case, the company wants to keep the cost as low as possible. The cost is determined by the amount of chicken and grain used in each bag of dog food. Therefore, the objective function is the cost equation.
The cost of chicken is $0.10 per ounce and the cost of grain is $0.01 per ounce. Thus, the cost equation is:
C = 0.10x + 0.01y
where C is the total cost of the dog food in dollars, x is the number of ounces of chicken, and y is the number of ounces of grain.
Therefore, the correct answer is option D. Minimize C = 0.1x + 0.01y.
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Linear relations and systems
The line passing through the points (4,6) and (12,2). What is the equation?
Answer:
the answer is 8472373n3
A group of workers can plant 35 acres in 7 days. What is their rate in acres per day?
The rate at which the group of workers can plant is 5 acres per day.
We have,
To find the rate at which the group of workers can plant acres per day, we can divide the total number of acres planted (35 acres) by the number of days it took (7 days).
Rate = Total acres planted / Number of days
Rate = 35 acres / 7 days
Simplifying the expression:
Rate = 5 acres/day
Therefore,
The rate at which the group of workers can plant is 5 acres per day.
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An ice hockey rink is in the shape of a rectangle, but with rounded comers. The rectangle is 200 feet long and 85 feet wide.
Ignoring the corner rounding, what is the distance around a hockey rink?
A. 570 ft
B. 285 ft
C. 485 ft
D. 370 ft
The distance around a hockey rink, ignoring the corner rounding, is 570 feet. To find the distance around the hockey rink, we need to calculate the perimeter of the rectangle.
The perimeter of a rectangle is given by the formula: perimeter = 2 * (length + width).
In this case, the length of the rectangle is 200 feet and the width is 85 feet. Substituting these values into the formula, we have perimeter = 2 * (200 + 85) = 2 * 285 = 570 feet.
Therefore, the distance around a hockey rink, ignoring the corner rounding, is 570 feet, which corresponds to option A) 570 ft.
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(1 point) for what values of c will a=[1c1c2] be invertible?
The matrix A will be invertible for all values of c except for c = 0 and c = 1.
To determine the values of c for which the matrix A = [1, c; 1, [tex]c^2[/tex]] is invertible, we need to calculate its determinant and find the values of c that make the determinant non-zero.
Calculate the determinant of A.
Determinant[tex](A) = (1 \times c^2) - (c \times 1) = c^2 - c[/tex]
Set the determinant to be non-zero.
[tex]c^2[/tex] - c ≠ 0
Factor out a c.
c(c - 1) ≠ 0
Find the values of c that make the expression true.
c ≠ 0 and c ≠ 1.
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For the matrix a=[1c1c2] to be invertible, its determinant must be non-zero. Therefore, we can find the determinant of a by using the formula:
det(a) = 1(2c) - c(1c) = 2c - c^2
Step 1: Calculate the determinant of A:
Det(A) = (1 * c^2) - (c * 1)
Step 2: Simplify the expression:
Det(A) = c^2 - c
Step 3: To make A invertible, Det(A) ≠ 0:
c^2 - c ≠ 0
Step 4: Factor the equation:
c(c - 1) ≠ 0
From Step 4, the matrix A is invertible when c ≠ 0 and c ≠ 1. So, the values of c that make A invertible are all real numbers except 0 and 1.
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Green eggs and ham (8 pts) Find the area of the domain enclosed by the curve with parametric equations x = tsint, y = cost, t= [0,2π]. You can draw the curve first with an online tool such as Desmos.
The curve with parametric equations x = tsint, y = cost, t= [0,2π] traces out a closed loop. The area of the domain enclosed by the curve is π/2 square units. We can plot this curve using an online tool such as Desmos and see that it resembles an egg-shaped figure.
To find the area of the domain enclosed by the curve, we need to use the formula for finding the area enclosed by a parametric curve:
A = ∫(y*dx/dt)dt, where t is the parameter.
In this case, we have x = tsint and y = cost, so dx/dt = sint + tcost and dy/dt = -sint. Substituting these values into the formula, we get:
A = ∫(cost)(sint + tcost)dt, t= [0,2π]
Evaluating this integral, we get:
A = ∫(sintcost + tcos^2t)dt, t= [0,2π]
A = [(-1/2)cos^2t + (1/2)t + (1/4)sin2t]t= [0,2π]
A = π/2
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