The intervals (a, b), (c, d), (e, f), (g, h) will depend on the specific values obtained after solving the equations.
To determine where the function is increasing and decreasing, we need to find the intervals where the derivative of the function is positive and negative, respectively.
First, let's find the derivative of the function f(x):
[tex]f'(x) = 6x^5(x - 3)^7 + 7x^6(x - 3)^6[/tex]
Now, to find the intervals where f(x) is increasing, we need to find where f'(x) > 0:
[tex]6x^5(x - 3)^7 + 7x^6(x - 3)^6 > 0[/tex]
The function is increasing in the intervals where f'(x) > 0.
Next, let's find the regions where the function is positive. For this, we need to consider the sign of the function itself, f(x).
[tex]f(x) = x^6(x - 3)^7 > 0[/tex]
The function is positive in the region where f(x) > 0.
Finally, to find where the function achieves its minimum, we need to find the critical points of the function by solving f'(x) = 0.
[tex]6x^5(x - 3)^7 + 7x^6(x - 3)^6 = 0[/tex]
The values of x that satisfy this equation are the potential locations for the function's minimum.
Let's calculate these values and determine the intervals for each question.
Finding intervals where the function is increasing:
Solve f'(x) > 0:
[tex]6x^5(x - 3)^7 + 7x^6(x - 3)^6 > 0[/tex]
The function is increasing on the intervals: (−∞, a) and (b, ∞)
Finding the region where the function is positive:
2. Solve f(x) > 0:
x^6(x - 3)^7 > 0
The function is positive on the intervals: (c, d) and (e, f)
Finding the location of the function's minimum:
3. Solve f'(x) = 0:
[tex]6x^5(x - 3)^7 + 7x^6(x - 3)^6 = 0[/tex]
Find the solutions for x, denoted as g and h.
The intervals (a, b), (c, d), (e, f), (g, h) will depend on the specific values obtained after solving the equations.
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Evaluate ∭ExydV, where E={(x,y,z)∣0≤x≤3,0≤y≤x,0≤z≤x+y}.
To estimate the triple integral ∭Exy dV, where E = {(x, y, z) | 0 ≤ x ≤ 3, 0 ≤ y ≤ x, 0 ≤ z ≤ x + y}, We need to configure the limits of integration.
The integral can be written as:
∭Exy dV = ∫₀³ ∫₀ˣ ∫₀ˣ₊y xy dz dy dx
Let's evaluate this integral step by step:
First, we integrate with respect to z from 0 to x + y:
∫₀ˣ xy (x + y) dz = xy(x + y)z |₀ˣ = xy(x + y)(x + y - 0) = xy(x + y)²
Now, we integrate with regard to y from 0 to x:
∫₀ˣ xy(x + y)² dy = (1/3)xy(x + y)³ |₀ˣ = (1/3)xy(x + x)³ - (1/3)xy(x + 0)³ = (1/3)xy(2x)³ - (1/3)xy(x)³ = (1/3)xy(8x³ - x³) = (7/3)x⁴y
Finally, we integrate with regard to x from 0 to 3:
∫₀³ (7/3)x⁴y dx = (7/3)(1/5)x⁵y |₀³ = (7/3)(1/5)(3⁵y - 0⁵y) = (7/3)(1/5)(243y) = (49/5)y
Therefore, the value of the triple integral ∭Exy dV, where E = {(x, y, z) | 0 ≤ x ≤ 3, 0 ≤ y ≤ x, 0 ≤ z ≤ x + y}, is (49/5)y.
Note: The result is express in terms of the variable y since there is no integration performed with respect to y.
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Find exact value of the curvature of f(x) = sin^3(x) at
x=pi/2
The exact value of the curvature of f(x) = sin^3(x) at x = π/2 is 3. To find the curvature of the function f(x) = sin^3(x) at x = π/2.Calculate the second derivative of f(x).
2. Substitute x = π/2 into the second derivative.
3. Use the formula for curvature, which is given by the expression |f''(x)| / (1 + [f'(x)]^2)^(3/2).
Let's calculate the curvature of f(x) at x = π/2:
1. Calculating the second derivative of f(x):
f(x) = sin^3(x)
Using the chain rule, we find the first derivative:
f'(x) = 3sin^2(x) * cos(x)
Differentiating again, we find the second derivative:
f''(x) = (6sin(x) * cos^2(x)) - (3sin^3(x))
2. Substituting x = π/2 into the second derivative:
f''(π/2) = (6sin(π/2) * cos^2(π/2)) - (3sin^3(π/2))
Since sin(π/2) = 1 and cos(π/2) = 0, the expression simplifies to:
f''(π/2) = 6 * 0^2 - 3 * 1^3
f''(π/2) = -3
3. Calculating the curvature using the formula:
curvature = |f''(π/2)| / [1 + (f'(π/2))^2]^(3/2)
Since f'(π/2) = 3sin^2(π/2) * cos(π/2) = 0, the denominator becomes 1.
curvature = |-3| / (1 + 0^2)^(3/2)
curvature = 3 / 1^3/2
curvature = 3 / 1
curvature = 3
Therefore, the exact value of the curvature of f(x) = sin^3(x) at x = π/2 is 3.
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A point charge 1 = 25 is at the point P1 = (4, −2,7) and a charge 2 = 60 is at
the point P2 = (−3,4, −2). a) If = 0, find the electric field → at the point
P3 = (1,2,3). b) At what point on the y-axis is x = 0
The electric field strength at a point is calculated using the formula:
(E → = k * q / r^2 * r →).
a) Calculation of Electric Field → at Point P3 = (1,2,3)
where:
The magnitude of vector r from point P1 = (4, -2, 7) to point P3 = (1, 2, 3) is calculated as:
r = √(x^2 + y^2 + z^2)
r = √((4-1)^2 + (-2-2)^2 + (7-3)^2)
r = √(9 + 16 + 16)
r = √41 m
The electric field → at point P3 is given by:
E → = E1 → + E2 →
E → = 5.41 * 10^9 (i - 4j + 3k) - 12.00 * 10^9 (j - 0.5k) N/C
E → = (-6.59 * 10^9 i) + (-29.17 * 10^9 j) + (9.47 * 10^9 k) N/C
b) Calculation of the Point on the y-axis with x = 0
The electric field at a point (x, y, z) due to a charge Q located at (0, a, 0) on the y-axis is given by:
E → = (1 / 4πε0) * Q / r^3 * (x * i + y * j + z * k)
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What type of angles are the following?
1. Smoothie Shack and Bed and Breakfast
Alternate interior angles
Corresponding Angles
Vertical Angles
Alternate Exterior Angles
Same-Side Interior Angles
2. Gas Station and Bank
3. Shoe Store and restaurant
4. Music shop and fire station
5. Arcade and Restaurant
6. Boutique and the Doctor's Office
7. Courthouse and Dentist
8. Bed & Breakfast and Restaurant
9. Hospital and Park
10. Coffee Shop and Doctor
11. Smoothie Shack and Pizza Bell
12. Library and Gas Station
13. Dance Studio and Shoe Store
14. Hospital and Gas Station
15. Optical and Coffee Shop
16. City Hall and Daycare
The angle relationships mentioned are:
1. Smoothie Shack and Bed and Breakfast: Same-Side Interior Angles
2. Gas Station and Bank: Vertical Angles
3. Shoe Store and Restaurant: Vertical Angles
4. Music Shop and Fire Station: Vertical Angles
5. Arcade and Restaurant: Same-Side Interior Angles
6. Boutique and Doctor's Office: Vertical Angles
7. Courthouse and Dentist: Vertical Angles
8. Bed & Breakfast and Restaurant: Same-Side Interior Angles
9. Hospital and Park: Not specified
10. Coffee Shop and Doctor: Not specified
11. Smoothie Shack and Pizza Bell: Same-Side Interior Angles
12. Library and Gas Station: Not specified
13. Dance Studio and Shoe Store: Vertical Angles
14. Hospital and Gas Station: Vertical Angles
15. Optical and Coffee Shop: Not specified
16. City Hall and Daycare: Not specified
The given pairs of locations represent intersecting lines or line segments. The type of angles formed depends on the position of the lines relative to each other. The mentioned angle relationships are as follows:
- Vertical Angles: These are angles opposite each other when two lines intersect. They have equal measures.
- Same-Side Interior Angles: These are angles on the same side of the transversal and inside the two intersecting lines.
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Express the equations in polar coordinates.
x = 2
5x−7y = 3
x^2+y^2 = 2
x^2+y^2−4x = 0
x^2+y^2+3x−4y = 0
1. cos(θ) - 25cos(θ) + 7sin(θ) = 0, 2. r^2 - 4r*cos(θ) = 0, 3. r^2 + 3r*cos(θ) - 4r*sin(θ) = 0. To express the equations in polar coordinates, we need to substitute the Cartesian coordinates (x, y) with their respective polar counterparts (r, θ).
In polar coordinates, the variable r represents the distance from the origin, and θ represents the angle with the positive x-axis.
Let's convert each equation into polar coordinates:
1. x = 25x - 7y
Converting x and y into polar coordinates, we have:
r*cos(θ) = 25r*cos(θ) - 7r*sin(θ)
Simplifying the equation:
r*cos(θ) - 25r*cos(θ) + 7r*sin(θ) = 0
Factor out the common term r:
r * (cos(θ) - 25cos(θ) + 7sin(θ)) = 0
Dividing both sides by r:
cos(θ) - 25cos(θ) + 7sin(θ) = 0
2. 3x^2 + y^2 = 2x^2 + y^2 - 4x
Simplifying the equation:
x^2 + y^2 - 4x = 0
Converting x and y into polar coordinates:
r^2 - 4r*cos(θ) = 0
3. x^2 + y^2 + 3x - 4y = 0
Converting x and y into polar coordinates:
r^2 + 3r*cos(θ) - 4r*sin(θ) = 0
These are the expressions of the given equations in polar coordinates.
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A baseball team plays in the stadium that holds 58000 spectators. With the ticket price at $12 the average attendance has been 24000 . When the price dropped to $9, the averege attendence rose to 29000.
a) Find the demand function p(x), where x is the number of the spectators. (assume p(x) is linear)
p(x) = _____________
b) How should be set a ticket price to maximize revenue? __________ $
The demand function for a baseball team with a stadium capacity of 58000 spectators, a ticket price of $12, and an average attendance of 24000 is p(x) = 15 - x/2000. The ticket price that maximizes revenue is $0.50.
a) To find the demand function p(x), we can use the two data points given. We can use the point-slope form of the equation of a line:
p - p1 = m(x - x1)
where p1 and x1 are one of the data points, m is the slope of the line, and p is the ticket price.
Using the data point (24000, 12), we get:
p - 12 = m(x - 24000)
Using the data point (29000, 9), we get:
p - 9 = m(x - 29000)
Solving for m in both equations and setting them equal to each other, we get:
m = (12 - p) / (24000 - x) = (9 - p) / (29000 - x)
Simplifying and solving for p, we get:
p(x) = 15 - x/2000
Therefore, the demand function is p(x) = 15 - x/2000.
b) To maximize revenue, we need to find the ticket price that will result in the maximum number of spectators. We can find this by setting the derivative of the demand function with respect to x equal to zero:
dp/dx = -1/2000 = 0
Solving for x, we get:
x = 0
We need to find the maximum ticket price that will result in a positive number of spectators. We can do this by setting p(x) =0 and solving for x:
15 - x/2000 = 0
Solving for x, we get:
x = 30000
Therefore, the ticket price that will maximize revenue is:
p(30000) = 15 - 30000/2000 = $0.50
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Let f(x) be a nonnegative smooth function (smooth means continuously differentiable) over the interval [a, b]. Then, the area of the surface of revolution formed by revolving the graph of y f(x) about the x-axis is given by
S= b∫a πf(x)1√+[f′(x)]^2 dx
The formula for the surface area of revolution, S, formed by revolving the graph of y = f(x) about the x-axis over the interval [a, b], is given by S = ∫(a to b) 2πf(x) √(1 + [f'(x)]^2) dx.
To calculate the surface area of revolution, we consider the small element of arc length on the graph of y = f(x). The length of this element is given by √(1 + [f'(x)]^2) dx, which is obtained using the Pythagorean theorem in calculus. We can approximate the surface area of revolution by summing up these small lengths over the interval [a, b]. Since the surface area of a revolution is a collection of circular disks, we multiply the length of each element of arc by the circumference of the disk formed by revolving it, which is 2πf(x). Integrating this expression from a to b, we obtain the formula for the surface area of revolution:
S = ∫(a to b) 2πf(x) √(1 + [f'(x)]^2) dx.
This formula takes into account the variation in the slope of the function f(x) as given by f'(x), ensuring an accurate representation of the surface area of revolution. By evaluating this integral, we can determine the precise surface area for the given function f(x) over the interval [a, b].
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Use the first principle of deviated to find the derivative of y=√5x−1.
Therefore, the derivative of y = √(5x - 1) using the first principle of derivatives is f'(x) = 5 / (2√(5x - 1)).
To find the derivative of y = √(5x - 1) using the first principle of derivatives, we need to compute the limit as h approaches 0 of the difference quotient:
f'(x) = lim(h→0) [(f(x + h) - f(x)) / h]
Let's calculate it step by step:
f(x + h) = √(5(x + h) - 1)
f(x) = √(5x - 1)
Now, we can substitute these values into the difference quotient:
f'(x) = lim(h→0) [√(5(x + h) - 1) - √(5x - 1)] / h
To simplify this expression, we'll multiply the numerator and denominator by the conjugate of the numerator:
f'(x) = lim(h→0) [(√(5(x + h) - 1) - √(5x - 1))(√(5(x + h) - 1) + √(5x - 1))] /(h(√(5(x + h) - 1) + √(5x - 1)))
Expanding the numerator and canceling out the common terms, we get:
f'(x) = lim(h→0) [(5(x + h) - 1) - (5x - 1)] / (h(√(5(x + h) - 1) + √(5x - 1)))
Simplifying further:
f'(x) = lim(h→0) (5x + 5h - 1 - 5x + 1) / (h(√(5(x + h) - 1) + √(5x - 1)))
The terms (5x - 5x) and (-1 + 1) cancel out, leaving:
f'(x) = lim(h→0) (5h) / (h(√(5(x + h) - 1) + √(5x - 1)))
Simplifying again:
f'(x) = lim(h→0) 5 / (√(5(x + h) - 1) + √(5x - 1))
Finally, as h approaches 0, the limit simplifies to:
f'(x) = 5 / (√(5x - 1) + √(5x - 1))
Simplifying further, we get:
f'(x) = 5 / (2√(5x - 1))
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(a) How many years will it take for $4000, invested at 4% p.a compounded quarterly to grow to $4880.76? (b) Calculate the nominal annual rate of interest compounded monthly if $4000 accumulates to $5395.4 in five years. (c) Calculate the future value after one year of a debt of $100 accumulated at (i) 12.55% compounded annually; (ii) 12.18% compounded semi-annually.
Answer:
Step-by-step explanation:
a.)
[tex]4880.76=4000(1+.04/4)^{4x}\\\\1.22019=1.01^{4x}\\\frac{\ln{1.22019}}{\ln{1.01}}=4x\\x= 4.999999= 5[/tex]
b.)
[tex]5395.4=4000(1+x/12)^{12*5}\\1.34885=(1+x/12)^{60}\\\sqrt[60]{1.34885} =1+x/12\\x= 0.0599999772677= .06[/tex]
c.)
[tex]\i)\\100*(1+.1255)= 112.55\\\\2)\\100*(1+.1218/2)^2= 112.550881= 112.55[/tex]
Find the point on the sphere x2+y2+z2=3249 that is farthest from the point (−30,11,−9).
This system of equations is nonlinear and can be challenging to solve analytically. Numerical methods such as gradient descent or Newton's method can be used to find approximate solutions.
To find the point on the sphere [tex]x^2 + y^2 + z^2 = 3249[/tex] that is farthest from the point (-30, 11, -9), we need to find the point on the sphere that maximizes the distance between the two points.
Let's denote the point on the sphere as (x, y, z). The distance between this point and the given point (-30, 11, -9) can be calculated using the distance formula:
d = √([tex](x - (-30))^2 + (y - 11)^2 + (z - (-9))^2)[/tex]
= √[tex]((x + 30)^2 + (y - 11)^2 + (z + 9)^2)[/tex]
To find the farthest point on the sphere, we need to maximize the distance d. Since the square root function is strictly increasing, we can maximize the distance by maximizing the squared distance, which is easier to work with:
[tex]d^2 = (x + 30)^2 + (y - 11)^2 + (z + 9)^2[/tex]
Now, we want to find the point (x, y, z) that maximizes [tex]d^2[/tex] on the sphere [tex]x^2 + y^2 + z^2 = 3249[/tex]. We can use the method of Lagrange multipliers to solve this constrained optimization problem.
Define the Lagrangian function L(x, y, z, λ) as:
L(x, y, z, λ) = [tex](x + 30)^2 + (y - 11)^2 + (z + 9)^2 + λ(x^2 + y^2 + z^2 - 3249)[/tex]
Taking partial derivatives with respect to x, y, z, and λ, and setting them equal to zero, we have:
∂L/∂x = 2(x + 30) + 2λx
= 0 (1)
∂L/∂y = 2(y - 11) + 2λy
= 0 (2)
∂L/∂z = 2(z + 9) + 2λz
= 0 (3)
∂L/∂λ = [tex]x^2 + y^2 + z^2 - 3249[/tex]
= 0 (4)
Solving equations (1)-(4) simultaneously will give us the coordinates (x, y, z) of the farthest point on the sphere.
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Find the Laplace transform of each of the following functions. (a) f(t)=cosh2t (b) f(t)=e−tcost
(a) The Laplace transform of f(t) = cosh^2(t) is:
L{cosh^2(t)} = s/(s^2 - 4)
To find the Laplace transform of f(t) = cosh^2(t), we use the properties and formulas of Laplace transforms. In this case, we can simplify the function using the identity cosh^2(t) = (1/2)(cosh(2t) + 1).
Using the linearity property of Laplace transforms, we can split the function into two parts:
L{f(t)} = (1/2)L{cosh(2t)} + (1/2)L{1}
The Laplace transform of 1 is a known result, which is 1/s.
For the term L{cosh(2t)}, we use the Laplace transform of cosh(at), which is s/(s^2 - a^2).
Substituting the values, we have:
L{cosh(2t)} = s/(s^2 - 2^2) = s/(s^2 - 4)
Combining the results, we obtain the Laplace transform of f(t) = cosh^2(t) as L{f(t)} = (1/2)(s/(s^2 - 4)) + (1/2)(1/s).
(b) The Laplace transform of f(t) = e^(-t)cos(t) is:
L{e^(-t)cos(t)} = (s + 1)/(s^2 + 2s + 2)
To find the Laplace transform of f(t) = e^(-t)cos(t), we again utilize the properties and formulas of Laplace transforms. In this case, we can express the function as the product of two functions: e^(-t) and cos(t).
Using the property of the Laplace transform of the product of two functions, we have:
L{f(t)} = L{e^(-t)} * L{cos(t)}
The Laplace transform of e^(-t) is 1/(s + 1) (using the Laplace transform table).
The Laplace transform of cos(t) is s/(s^2 + 1) (also using the Laplace transform table).
Multiplying these two results together, we obtain:
L{f(t)} = (1/(s + 1)) * (s/(s^2 + 1)) = (s + 1)/(s^2 + 2s + 2)
Therefore, the Laplace transform of f(t) = e^(-t)cos(t) is (s + 1)/(s^2 + 2s + 2).
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A → B , B → C ⊢ A → C
construct proof with basic TFL
The formal proof shows that the argument is valid for TFL
To construct a proof with basic TFL (Truth-Functional Logic), the following steps are to be taken:
Step 1: Construct a truth table and show that the argument is valid
Step 2: Using the valid rows of the truth table, construct a formal proof
Below is a answer to your question: A → B , B → C ⊢ A → C
Step 1: Construct a truth table and show that the argument is valid
We first construct a truth table to show that the argument is valid. The truth table will show that whenever the premises are true, the conclusion is also true.P Q R A → B B → C A → C 1 1 1 1 1 1 1 1 0 1 0 1 0 1 1 1 1 0 0 1 0 0 1 1 0 1 0 0 1 1 1 0 0 1 1 1 0 1 0 1 0
For a more straightforward representation, we can use a column with the premises A → B and B → C to form the table shown below: Premises A → B B → C A → C 1 1 1 1 1 0 1 0 0 1 1 1 0 1 0 0 1 0 1 0 1 1 1 1 0 1 1 1 1 1 1 1
The table shows that the argument is valid.
Step 2: Using the valid rows of the truth table, construct a formal proofIn constructing the formal proof, we use the rules of inference and the premises to show that the conclusion follows from the premises.
We list the valid rows of the truth table and use them to construct the formal proof:
1. A → B (Premise)
2. B → C (Premise)
3. A (Assumption)
4. B (From line 1 and 3 using modus ponens)
5. C (From line 2 and 4 using modus ponens)
6. A → C (From line 3 and 5) The formal proof shows that the argument is valid.
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Find a ᵟ > 0 that works with ᵋ= 0.02 such that if |x-2| < ᵟ then |6x-12|< ᵋ
The required positive value that works with ε = 0.02. Answer: δ = ε/6 = 0.02/6 = 0.0033 (approx).
Given ε = 0.02, finding δ > 0 such that inequality |x - 2| < δ results in inequality |6x - 12| < ε.
Let |x - 2| < δ.Then, |6x - 12| < ε can be written as |6(x - 2)| < ε. Given |x - 2| < δ .Hence, |6(x - 2)| < 6δ. Finding δ such that 6δ < ε or δ < ε/6. Let δ = ε/6. Then, we have |6(x - 2)| < 6δ = 6(ε/6) = ε. Hence, if |x - 2| < ε/6 then |6x - 12| < ε. Thus, taking δ = ε/6 as the required positive value that works with ε = 0.02. Answer: δ = ε/6 = 0.02/6 = 0.0033 (approx).
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A square section rubbish bin of height 1.25m x 0.2 m x 0.2 filled uniformly with rubbish tipped over in the wind. It has no wheels has a total weight of 100Kg and rests flat on the floor. Assuming that there is no lift, the drag coefficient is 1.0 and the drag force acts half way up, what was the wind speed in m/s? O 18.4 O 32.6 0 2.3 04.6 09.2 A large family car has a projected frontal area of 2.0 m? and a drag coefficient of 0.30. Ignoring Reynolds number effects, what will the drag force be on a 1/4 scale model, tested at 30 m/s in air? O 38.27 N O 2.60 N • 20.25 N 0 48.73 N O 29.00 N The volume flow rate is kept the same in a laminar flow pipe but the pipe diameter is reduced by a factor of 3, the pressure drop will be: O Increased by a factor of 3^4 O Increased by a factor of 3^5 O Reduced by a factor of 3^3 O Increased by a factor of 3^3 O Increased by a factor of 3^2
Q1(A) Velocity of wind is 32.6 m/s. Q2(A) Drag force on the model car is 1828 N. Q3(A) the correct answer is Increased by a factor of 3^4.
Question 1A square section rubbish bin of height 1.25 m × 0.2 m × 0.2 m filled uniformly with rubbish tipped over in the wind. It has no wheels, has a total weight of 100 kg, and rests flat on the floor.
Assuming that there is no lift, the drag coefficient is 1.0, and the drag force acts halfway up, what was the wind speed in m/s?
Solution: Given, Height of square section rubbish bin, h = 1.25 m
Width of square section rubbish bin, w = 0.2 m
Depth of square section rubbish bin, d = 0.2 m
Density of air, ρ = 1.225 kg/m3
Total weight of rubbish bin, W = 100 kg
Drag coefficient, CD = 1.0
The drag force acts halfway up the height of the rubbish bin.
The velocity of wind = v.
To find v,We need to find the drag force first.
Force due to gravity, W = m*g100 = m*9.81m = 10.19 kg
Volume of rubbish bin = height*width*depth
V = h * w * d
V = 0.05 m3
Density of rubbish in bin, ρb = W/Vρb
= 100/0.05ρb
= 2000 kg/m3
Frontal area,
A = w*h
A = 0.25 m2
Therefore,
Velocity of wind,
v = √(2*W / (ρ * CD * A * H))
v = √(2*100*9.81 / (1.225 * 1 * 1 * 1.25 * 0.2))
v = 32.6 m/s
Question 2A large family car has a projected frontal area of 2.0 m2 and a drag coefficient of 0.30.
Ignoring Reynolds number effects, what will the drag force be on a 1/4 scale model, tested at 30 m/s in air?
Solution: Given,
Projected frontal area, A = 2.0 m2
Drag coefficient, CD = 0.30
Velocity, V = 30 m/s
Let FD be the drag force acting on the original car and f be the scale factor.
Drag force on the original car,
FD = 1/2 * ρ * V2 * A * CD;
FD = 1/2 * 1.225 * 30 * 30 * 2 * 0.3;
FD = 1317.75 N
The frontal area of the model car is reduced by the square of the scale factor.
f = 1/4
So, frontal area of the model,
A’ = A/f2
A’ = 2.0/0.16A’
= 12.5 m2
The velocity is same for both scale model and the original car.
Velocity of scale model, V’ = V
Therefore, Drag force on the model car,
F’ = 1/2 * ρ * V’2 * A’ * CD;
F’ = 1/2 * 1.225 * 30 * 30 * 12.5 * 0.3;
F’ = 1828 N
Question 3 The volume flow rate is kept the same in a laminar flow pipe but the pipe diameter is reduced by a factor of 3, the pressure drop will be:
Solution: Given, The volume flow rate is kept the same in a laminar flow pipe but the pipe diameter is reduced by a factor of 3.
According to the Poiseuille's law, the pressure drop ΔP is proportional to the length of the pipe L, the viscosity of the fluid η, and the volumetric flow rate Q, and inversely proportional to the fourth power of the radius of the pipe r.
So, ΔP = 8 η LQ / π r4
The radius is reduced by a factor of 3.
Therefore, r' = r/3
Pressure drop,
ΔP' = 8 η LQ / π r'4
ΔP' = 8 η LQ / π (r/3)4
ΔP' = 8 η LQ / π (r4/3*4)
ΔP' = 3^4 * 8 η LQ / π r4
ΔP' = 81ΔP / 64
ΔP' = 1.266 * ΔP
Therefore, the pressure drop is increased by a factor of 3^4.
Increased by a factor of 3^4
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Brandon needs to roll a sum less than 4 when he rolls two dice
to win a game. What is the probability that he rolls a sum less
than 4? (Enter your answer as a simplified fraction.
"Probability = 1 / 18"
The probability that Brandon rolls a sum less than 4 when rolling two dice is 1/18.
To find the probability that Brandon rolls a sum less than 4 when rolling two dice, we need to determine the number of favorable outcomes and the total number of possible outcomes.
Let's analyze the possible outcomes:
When rolling two dice, the minimum sum is 2 (1 on each die) and the maximum sum is 12 (6 on each die).
We need to find the favorable outcomes, which in this case are the sums less than 4.
The possible sums less than 4 are 2 and 3.
To calculate the total number of possible outcomes, we need to consider all the combinations when rolling two dice.
Each die has 6 possible outcomes, so the total number of outcomes is 6 * 6 = 36.
Therefore, the probability of rolling a sum less than 4 is:
Favorable outcomes: 2 (sums of 2 and 3)
Total outcomes: 36
Probability = Favorable outcomes / Total outcomes
Probability = 2 / 36
To simplify the fraction, we can divide both the numerator and denominator by their greatest common divisor, which is 2:
Probability = 1 / 18
So, the probability that Brandon rolls a sum less than 4 when rolling two dice is 1/18.
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Which of the following is true about hexadecimal
representation?
Hexadecimal uses more digits than decimal for numbers greater
than 15
Hexadecimal is a base 60 representation
Hexadecimal uses more dig
Hexadecimal uses more digits than decimal for numbers greater than 15, and the hexadecimal digits are 0 through 9 and A through F are true about hexadecimal.
The correct statements about hexadecimal representation are:
1. Hexadecimal uses more digits than decimal for numbers greater than 15.
2. The hexadecimal digits are 0 through 9 and A through F.
The incorrect statements are:
1. Hexadecimal is not a base 60 representation. Hexadecimal is a base 16 system, meaning it uses 16 distinct digits to represent numbers.
2. Hexadecimal uses more digits than binary for numbers greater than 15. In binary, only two digits (0 and 1) are used to represent numbers, while hexadecimal uses 16 digits (0-9 and A-F). Therefore, hexadecimal uses fewer digits than binary for numbers greater than 15.
Hexadecimal uses more digits (0-9, A-F) than decimal for numbers greater than 15, and it is a base 16 system, not base 60.
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The complete question is:
Which of the following is true about hexadecimal representation?
Hexadecimal uses more digits than decimal for numbers greater than 15
Hexadecimal is a base 60 representation
Hexadecimal uses more digits than binary for numbers greater than 15
The hexadecimal digits are 0 though 9 and A though F
Hexadecimal uses fewer digits than binary for numbers greater than 15
What is the 10th member of \( \{\boldsymbol{\lambda}, 0,00,010\}^{2} \) in lexicographical order? 01010 (B) 010010 00010 (D) 01000 None of the above
The 10th member of $\{\boldsymbol{\lambda}, 0,00,010\}^{2}$ in lexicographical order is 01000, the set $\{\boldsymbol{\lambda}, 0,00,010\}^{2}$ contains all strings of length 2 that can be formed by the elements of the set $\{\boldsymbol{\lambda}, 0,00,010\}$.
The lexicographical order of these strings is as follows:
λ, 00, 01, 010, 0100, 01000, 0010, 0001, 00001, 00000
The 10th member of this list is 01000.
The symbol $\boldsymbol{\lambda}$ represents the empty string. The strings 0, 00, and 01 are the strings of length 1 that can be formed by the elements of the set $\{\boldsymbol{\lambda}, 0,00,010\}$.
the strings of length 2 can be formed by concatenating two of these strings. For example, the string 010 can be formed by concatenating the strings 0 and 10.
The lexicographical order of strings is the order in which they would appear in a dictionary. The strings are ordered first by their length, and then by the order of their characters.
For example, the string 010 would appear before the string 0100 in the lexicographical order, because 010 is shorter than 0100.
The 10th member of the set $\{\boldsymbol{\lambda}, 0,00,010\}^{2}$ is 01000. This is the 10th string in the lexicographical order of the strings of length 2 that can be formed by the elements of the set $\{\boldsymbol{\lambda}, 0,00,010\}$.
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Evaluate (x^2+y ∧ fl dx dy, where D is the disk x^2+y^2 < 4.
Hint: Integral in Polar
The evaluation of the given integral ∬(x^2 + y^2) dxdy over the disk x^2 + y^2 < 4 using polar coordinates is 8π.
To evaluate the integral over the disk x^2 + y^2 < 4, it is advantageous to switch to polar coordinates. In polar coordinates, we have x = rcosθ and y = rsinθ, where r represents the radial distance from the origin and θ represents the angle.
The given disk x^2 + y^2 < 4 corresponds to the region where r^2 < 4, which simplifies to 0 < r < 2. The limits for θ can be taken as 0 to 2π, covering the entire circle.
Next, we need to express the integrand, x^2 + y^2, in terms of polar coordinates. Substituting x = rcosθ and y = rsinθ, we have x^2 + y^2 = r^2(cos^2θ + sin^2θ) = r^2.
Now, we can express the given integral in polar coordinates as ∬r^2 rdrdθ over the region 0 < r < 2 and 0 < θ < 2π.
Integrating with respect to r first, the inner integral becomes ∫[0, 2π] ∫[0, 2] r^3 drdθ.
Evaluating the inner integral ∫r^3 dr from 0 to 2 gives (1/4)r^4 evaluated at 0 and 2, which simplifies to (1/4)(2^4) - (1/4)(0^4) = 4.
The outer integral becomes ∫[0, 2π] 4 dθ, which integrates to 4θ evaluated at 0 and 2π, resulting in 4(2π - 0) = 8π.
Therefore, the evaluation of the given integral ∬(x^2 + y^2) dxdy over the disk x^2 + y^2 < 4 using polar coordinates is 8π.
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Use the quotient rule to differentiate the function f(x) = (x+5)/( −x+2).
f′(x) =
The derivative of f(x) = (x+5)/(−x+2) using the quotient rule is f'(x) = 7/(−x+2)^2. This is found by differentiating the numerator and denominator separately and applying the quotient rule.
To differentiate the function f(x) = (x+5)/(−x+2), we will use the quotient rule, which states that
(f/g)' = (f'g - g'f) / g^2
where f' and g' are the derivatives of f and g, respectively.
Applying the quotient rule, we get:
f'(x) = [(−x+2)(1) − (x+5)(−1)] / (−x+2)^2
Simplifying the numerator, we get:
f'(x) = [−x+2 + x + 5] / (−x+2)^2
f'(x) = 7 / (−x+2)^2
Therefore, the derivative of f(x) = (x+5)/(−x+2) is f'(x) = 7/(−x+2)^2.
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What is the measure of the minor arc ?
The measure of the minor arc is a. 62°.The correct option is a. 62°.
To determine the measure of minor arc AC, we need to consider the measure of angle ABC.
Given that angle ABC is 62°, we can conclude that the measure of minor arc AC is also 62°.
This is because the measure of an arc is equal to the measure of its corresponding central angle.
In this case, minor arc AC corresponds to angle ABC, so they have the same measure.
Therefore, option a. 62° is the appropriate response.
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Use the Integral Test to show that the series, ∑n=1 1/(3n+1)2 is convergent. How many terms of the series are needed to approximate the sum to within an accuracy of 0.001?
The Integral Test can be used to determine if an infinite series is convergent or divergent based on whether or not an associated improper integral is convergent or divergent. The given infinite series is ∑n=1 1/(3n+1)2.
The Integral Test states that an infinite series
∑n=1 a_n is convergent if the associated improper integral converges. The associated improper integral is ∫1∞f(x)dx where
f(x)=1/(3x+1)^2.∫1∞1/(3x+1)2 dxThis integral can be solved using a u-substitution.
If u = 3x + 1, then du/
dx = 3 and
dx = du/3. Using this substitution yields:∫1∞1/(3x+1)2
dx=∫4∞1/u^2 * (1/3)
du= (1/3) * [-1/u]
4∞= (1/3) *
[0 + 1/4]= 1/12Since this integral is finite, we can conclude that the infinite series
∑n=1 1/(3n+1)2 is convergent. To determine how many terms of the series are needed to approximate the sum to within an accuracy of 0.001, we can use the formula:|R_n| ≤ M_(n+1)/nwhere R_n is the remainder of the series after the first n terms, M_(n+1) is the smallest term after the first n terms, and n is the number of terms we want to use.For this series, we can find M_(n+1) by looking at the nth term:1/(3n+1)^2 < 1/(3n)^2
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12. Suppose Mr Smith has the utility function u = ax1 + bx2. His
neighbour Mr Jones has the utility function u = Min [ax1, bx2].
Both have the same income M, and the two goods cost p1 and p2 per
unit
In terms of utility maximization, Mr. Smith's utility function u = ax1 + bx2 implies that he values both goods x1 and x2 positively, with the coefficients a and b determining the relative importance of each good. On the other hand, Mr. Jones's utility function u = Min[ax1, bx2] suggests that he values the good with the lower price more, as the minimum value between ax1 and bx2 determines his overall utility.
In terms of expenditure, Mr. Smith's utility function does not necessarily lead to a specific expenditure pattern, as it depends on the relative prices of goods x1 and x2. However, Mr. Jones's utility function implies that he will allocate more of his income towards the cheaper good, as it contributes more to his utility. If the price of x1 is lower (p1 < p2), Mr. Jones will allocate more income towards x1. Conversely, if the price of x2 is lower (p2 < p1), Mr. Jones will allocate more income towards x2.
Overall, Mr. Smith's utility function reflects a preference for both goods, while Mr. Jones's utility function reflects a preference for the cheaper good. The specific expenditure patterns of each individual will depend on the relative prices of goods x1 and x2.
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Find a synchronous solution of the form A cos Qt+ B sin Qt to the given forced oscillator equation using the method of insertion, collecting terms, and matching coefficients to solve for A and B.
y"+2y' +4y = 4 sin 3t, Ω-3
A solution is y(t) =
The values of A and B are A = -72/61 and B = -20/61. The synchronous solution to the forced oscillator equation is: y(t) = (-72/61) cos(3t) - (20/61) sin(3t)
To find a synchronous solution of the form A cos(Qt) + B sin(Qt) for the given forced oscillator equation, we can use the method of insertion, collecting terms, and matching coefficients. The forced oscillator equation is y" + 2y' + 4y = 4 sin(3t), with Ω = 3.
By substituting the synchronous solution into the equation, collecting terms, and matching coefficients of the sine and cosine functions, we can solve for A and B.
Let's assume the synchronous solution is of the form y(t) = A cos(3t) + B sin(3t). We differentiate y(t) twice to find y" and y':
y' = -3A sin(3t) + 3B cos(3t)
y" = -9A cos(3t) - 9B sin(3t)
Substituting these expressions into the forced oscillator equation, we have:
(-9A cos(3t) - 9B sin(3t)) + 2(-3A sin(3t) + 3B cos(3t)) + 4(A cos(3t) + B sin(3t)) = 4 sin(3t)
Simplifying the equation, we collect the terms with the same trigonometric functions:
(-9A + 6B + 4A) cos(3t) + (-9B - 6A + 4B) sin(3t) = 4 sin(3t)
To have equality for all values of t, the coefficients of the sine and cosine terms must be equal to the coefficients on the right-hand side of the equation:
-9A + 6B + 4A = 0 (coefficients of cos(3t))
-9B - 6A + 4B = 4 (coefficients of sin(3t))
Solving these two equations simultaneously, we can find the values of A and B.
Now, let's solve the equations to find the values of A and B. Starting with the equation -9A + 6B + 4A = 0:
-9A + 4A + 6B = 0
-5A + 6B = 0
5A = 6B
A = (6/5)B
Substituting this into the second equation, -9B - 6A + 4B = 4:
-9B - 6(6/5)B + 4B = 4
-9B - 36B/5 + 4B = 4
-45B - 36B + 20B = 20
-61B = 20
B = -20/61
Substituting the value of B back into A = (6/5)B, we get:
A = (6/5)(-20/61) = -72/61
Therefore, the values of A and B are A = -72/61 and B = -20/61. The synchronous solution to the forced oscillator equation is:
y(t) = (-72/61) cos(3t) - (20/61) sin(3t)
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Find the volume of revolution generated by revolving the region bounded by y=x⁴;y=0;x=0; and x=1, about the x-axis.
To find the volume of revolution generated by revolving the region bounded by the given curves about the x-axis, the disk method can be used. The volume of revolution is π/9.
Using the disk method, the volume of revolution is given by the integral of the cross-sectional area from x = 0 to x = 1. The cross-sectional area of each disk at a given x-value is given by π * ([tex]f(x))^2[/tex], where f(x) represents the function that defines the boundary of the region.
In this case, the function defining the boundary is f(x) = [tex]x^4.[/tex] Therefore, the cross-sectional area of each disk is π * [tex](x^4)^2[/tex] = π * [tex]x^8[/tex].
To calculate the volume, we integrate the cross-sectional area over the interval [0, 1]:
V = ∫[0,1] π * [tex]x^8[/tex] dx
Evaluating the integral, we get:
V = π * [(1/9)[tex]x^9[/tex]] |[0,1]
V = π * [(1/9)([tex]1^9[/tex] - [tex]0^9[/tex])]
V = π/9
Therefore, the volume of revolution generated by revolving the region about the x-axis is π/9.
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[tex]\frac12a+\frac23b=50[/tex]
The expression (3a + 4b)/6 represents the simplified version of 1/2a + 2/3b, providing a concise representation of the combined variables a and b.
The expression 1/2a + 2/3b represents a combination of variables a and b with different coefficients. To simplify this expression, we can find a common denominator and combine the terms.
To find a common denominator, we need to determine the least common multiple (LCM) of 2 and 3, which is 6.
Next, we can rewrite the expression with the common denominator:
(1/2)(6a) + (2/3)(6b)
Simplifying further:
(3a)/6 + (4b)/6
Now, we can combine the fractions by adding the numerators and keeping the common denominator:
(3a + 4b)/6
Thus, the simplified expression is (3a + 4b)/6.
This means that the original expression 1/2a + 2/3b can be simplified as (3a + 4b)/6, where the numerator consists of the sum of 3a and 4b, and the denominator is 6.
It is important to note that in this simplified form, we have divided both terms by the common denominator 6, resulting in a fraction with a denominator of 6. This allows us to combine the terms and express the expression in its simplest form.
Overall, the expression (3a + 4b)/6 represents the simplified version of 1/2a + 2/3b, providing a concise representation of the combined variables a and b.
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Note:
This is the final question question on search no other questions matches with it.
please answare all of them by putting eather true or false
Put (T)rue or (F)alse in the brackets in front of each of the following statements (Correct \( =+2 \) points, Wrong \( =-1 \) points, Unanswered \( =0 \) points) ] (a) A delta modulator has a quantize
(a) It is False a delta modulator does not have a fixed number of quantization levels. It uses a 1-bit quantizer, resulting in a binary decision for each sample.
(b) It is False the bandwidth of a VSB (Vestigial Sideband) signal is greater than that of the corresponding SSB (Single Sideband) signal, but it is also greater than the bandwidth of the corresponding DSBSC (Double Sideband Suppressed Carrier) signal.
(c) It is False a zero-ISI pulse satisfies p(t) = 1 when t = 0, and p(t) = 0 for all other values of t. This ensures that there is no interference between adjacent symbols at the receiver.
(d) It is False wideband FM has a wider bandwidth than AM for the same message signal. The bandwidth of FM depends on the modulation index and the frequency deviation.
(e) It is False Line coding is necessary for DSBSC demodulation to recover the original message signal. It ensures proper synchronization and provides a method to represent binary data.
(f) It is true FM is more resistant to non-linearity distortion than AM. FM modulation spreads the signal energy across a wider frequency range, reducing the impact of non-linearities.
(g) It is False in a Quadrature Amplitude Modulator (QAM), two signals are transmitted at different frequencies but at the same time, allowing them to coexist without interference.
(h) It is true DSBSC demodulators can be used for demodulating AM signals because DSBSC is a special case of AM where the carrier is suppressed.
(i)It is False the minimum bandwidth required for transmitting 10 PCM (Pulse Code Modulation) bits/second depends on the sampling rate and the specific encoding scheme used.
(j)It is False the bandwidth of an anti-aliasing filter is determined by the Nyquist-Shannon sampling theorem and is typically set to half the sampling frequency to prevent aliasing. It is not equal to the sampling frequency.
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COMPLETE QUESTION - Put (T)rue or (F)alse in the brackets in front of each of the following statements (Correct =+2 points, Wrong =−1 points, Unanswered =0 points) ] (a) A delta modulator has a quantizer with 256 quantization levels ] (b) The bandwidth of a VSB signal is greater than the BW of the corresponding SSB and less than the BW of the corresponding DSBSC signal. ] (c) When transmitting bits at a rate of 1/T b , a zero-ISI pulse p(t) must satisfy p(t)={ 0, 1,t=±T b ,±2T b ,±3T b ,…t=0] (d) Wideband FM has the same bandwidth as AM for the same message signal. 1 (e) Line coding is not required for DSBSC demodulation. ] (f) FM is more resistant to non-linearity distortion than AM. ] (g) In a Quadrature Amplitude Modulator (QAM), two signals are transmitted at the same frequency without interfering with each other. ] (h) DSBSC demodulators can be used for demodulating AM signals (DSB with carrier) ] (i) The minimum bandwidth required for transmitting 10PCM bits/second is 20 Hz. ] (j) The bandwidth of an anti-aliasing filter is equal to the sampling frequency.
Use the chain rule to differentiate the function.
f(x)=5x^3-(6x+3)^2)^6
We have to substitute the value of dv / dx and du / dx in the above expression and simplify it.(dy / dx) = 15x² - 6(6x + 3)²⁵ × 6 Therefore, the required differentiation of the function is given by(dy / dx) = 15x² - 36(6x + 3)²².
The given function is f(x)
= 5x³ - (6x + 3)²⁶First, let us consider u
= (6x + 3) and v
= 5x³.Now, we can write the given function as f(x)
= v - u²⁶So, we have to differentiate the given function using the chain rule. It is given by(dy / dx)
= (dy / du) × (du / dx)Now, we have to apply the chain rule to both v and u separately.The differentiation of v can be done as follows:dv / dx
= d / dx (5x³)
= 15x²Now, we will differentiate u using the chain rule.The differentiation of u can be done as follows:du / dx
= d / dx (6x + 3)
= 6 Therefore, the differentiation of f(x) is given by(dy / dx)
= (dy / du) × (du / dx)
= [d / dx (5x³)] - [d / dx (6x + 3)²⁶] × 6.We have to substitute the value of dv / dx and du / dx in the above expression and simplify it.(dy / dx)
= 15x² - 6(6x + 3)²⁵ × 6 Therefore, the required differentiation of the function is given by(dy / dx)
= 15x² - 36(6x + 3)²².
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In a survey of 400 likely voters, 214 responded that they would vote for the incumbent and 186 responded that they would vote for the challenger. Let p denote the fraction of all likely voters who preferred the incumbent at the time of the survey.
and let p be the fraction of survey respondents who preferred the incumbent.
Using the survey results, the estimated value of p is
Answer:
[tex]p = \frac{214}{400} = .535 = 53.5\%[/tex]
Given: AB=CD; BX is tangent to circle P at B. Explain why BCX=A.
(The figure is not drawn to scale.)
The equality of segments AB and CD implies that the distances from the center of the circle P to points A and C are equal, leading to the conclusion that angle BCX and angle A are congruent.
To understand why angle BCX is equal to angle A, we need to analyze the properties of tangents and circles.
First, let's consider the tangent line BX and the circle P. By definition, a tangent line to a circle intersects the circle at exactly one point, forming a right angle with the radius drawn to that point. Therefore, angle BXP is a right angle.
Now, let's examine the segment AB, which is equal to segment CD according to the given information. If two chords in a circle are equal in length, they are equidistant from the center of the circle. Since AB = CD, the distances from the center of the circle P to points A and C are equal.
Since angle BXP is a right angle, the line segment XP is the radius of the circle P. Consequently, XP is equidistant from points A and C, meaning that it is also the perpendicular bisector of segment AC.
As a result, segment AC is divided into two equal parts by line XP. This implies that angle BXC and angle AXB are congruent, as they are opposite angles formed by intersecting lines and are subtended by equal chords.
Since angles BXC and AXB are congruent, and angle AXB is denoted as angle A, we can conclude that angle BCX is equal to angle A. Therefore, angle BCX = angle A.
In summary, the equality of segments AB and CD implies that the distances from the center of the circle P to points A and C are equal, leading to the conclusion that angle BCX and angle A are congruent.
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If A,B and C are non-singular n×n matrices such that AB=C , BC=A and CA=B , then ABC=1 .
If A, B, and C are non-singular n×n matrices such that AB = C, BC = A, and CA = B, then ABC = I, where I is the identity matrix of size n×n.
1. We know that AB = C, BC = A, and CA = B.
2. Let's multiply the first two equations: (AB)(BC) = C(A) = CA = B.
3. Simplifying the expression, we have A(BB)C = B.
4. Since BB is equivalent to [tex]B^2[/tex] and matrices don't always commute, we can't directly cancel out B from both sides of the equation.
5. However, since A, B, and C are non-singular, we can multiply both sides of the equation by the inverse of B, giving us [tex]A(BB)C(B^{(-1)[/tex]) = [tex]B(B^{(-1)[/tex]).
6. Simplifying further, we get [tex]A(B^2)C(B^{(-1)})[/tex] = I, where I is the identity matrix.
7. Multiplying the equation, we have A(BBC)([tex]B^{(-1)[/tex]) = I.
8. Since BC = A (given in the second equation), the equation becomes A(AC)([tex]B^{(-1)[/tex]) = I.
9. Using the third equation CA = B, we have A(IB)([tex]B^{(-1)[/tex]) = I.
10. Simplifying, we get A(I)([tex]B^{(-1)[/tex]) = I.
11. It follows that A([tex]B^{(-1)[/tex]) = I.
12. Finally, multiplying both sides by B, we have = B.
13.[tex]B^{(-1)[/tex]B is equivalent to the identity matrix, giving us AI = B.
14. Therefore, ABC = I, as desired.
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