Factor the following polynomial function completely. Use the Conjugate Roots Theorem, if applicable f(x)=x^6−22x^4−79x^2+100 Answer f(x)=

In order to determine the angular frequency and amplitude of the term in the Fourier series with the largest amplitude for the response x(t) to the given differential equation, we need more information about the function f(t) in part 3(a).

Without the specific form or properties of f(t), we cannot directly calculate the angular frequency or amplitude. The Fourier series decomposition of the response x(t) will involve different terms with different angular frequencies and amplitudes, depending on the specific characteristics of f(t). The angular frequency is determined by the coefficient of the variable t in the Fourier series, and the amplitude is related to the magnitude of the Fourier coefficients.

To find the angular frequency and amplitude of a specific term in the Fourier series, we need to know the function f(t) and apply the Fourier analysis techniques to obtain the coefficients. Then, we can identify the term with the largest amplitude and calculate its angular frequency.

Therefore, without further information about f(t), we cannot determine the angular frequency or amplitude for the specific term in the Fourier series of the response x(t).

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A2 + 4a√b + 4b

____________

A2-4b

 By rationalizing the Denominator of [tex]\frac{a+\sqrt{4b} }{a-\sqrt{4b}}[/tex]  we get [tex]\frac{a^{2} +2a\sqrt{4b} + 4b}{a^{2} -4b}[/tex]

A radical or imaginary number can be removed from the denominator of an algebraic fraction by a procedure known as o learn more about . That is, eliminate the radicals from a fraction to leave only a rational integer in the denominator.

To rationalise multiply numerator and denominator with [tex]a+\sqrt{4b}[/tex] where a is an integer and b is a prime number.

we get  [tex]\frac{a+\sqrt{4b}}{a-\sqrt{4b}} * \frac{a+\sqrt{4b}}{a+\sqrt{4b}}[/tex]

[tex]= \frac{(a+\sqrt{4b})^{2} }{a^{2} -(\sqrt{4b})^{2} }[/tex]

by solving we get [tex]=\frac{a^{2} +2a\sqrt{4b} + 4b}{a^{2} -4b}[/tex]

By rationalizing the Denominator of [tex]\frac{a+\sqrt{4b} }{a-\sqrt{4b}}[/tex]  we get [tex]\frac{a^{2} +2a\sqrt{4b} + 4b}{a^{2} -4b}[/tex]

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To find the vertex form of the equation modeling function g, we start with the given equation for function f in standard form: [tex]\displaystyle\sf f(x) = x^2 - 4x - 32[/tex].

To obtain the vertex form, we need to complete the square. Let's go through the steps:

1. Divide the coefficient of the x-term by 2, square the result, and add it to both sides of the equation:

[tex]\displaystyle\sf f(x) + 32 = x^2 - 4x + (4/2)^2[/tex]

[tex]\displaystyle\sf f(x) + 32 = x^2 - 4x + 4[/tex]

2. Simplify the right side of the equation:

[tex]\displaystyle\sf f(x) + 32 = (x - 2)^2[/tex]

3. To model function g, we need to shift the vertex 2 units below and 3 units to the left. Therefore, we subtract 2 from the y-coordinate and subtract 3 from the x-coordinate:

[tex]\displaystyle\sf g(x) + 32 = (x - 2 - 3)^2[/tex]

[tex]\displaystyle\sf g(x) + 32 = (x - 5)^2[/tex]

4. Finally, subtract 32 from both sides to isolate g(x) and obtain the vertex form of the equation for function g:

[tex]\displaystyle\sf g(x) = (x - 5)^2 - 32[/tex]

Therefore, the vertex form of the equation modeling function g is [tex]\displaystyle\sf g(x) = (x - 5)^2 - 32[/tex].

The vertex form of g(x), which has the same a value as given function f(x)=X² - 4x - 32 and its vertex 2 units below and 3 units to the left of the vertex of f, would be g(x) = (x+1)² - 38.

The vertex form of a quadratic function is f(x) = a(x-h)² + k, where (h,k) is the vertex of the parabola. The given function f(x) = X² - 4x - 32 has a vertex (h,k). To find out where it is, we complete the square on function f to convert it into vertex form.

By completing the square, we find the vertex of f is (2, -36). But the vertex of g is 2 units below and 3 units to the left of the vertex of f, so the vertex of g is (-1, -38). Therefore, the vertex form of function g, keeping the same 'a' value (which in this case is 1), is g(x) = (x+1)² - 38 because h=-1 and k=-38.

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The general solution to the nth order homogeneous differential equation with characteristic equation[tex](r - 1)^n[/tex] = 0 is given by y(x) = c₁[tex]e^(^x^)[/tex] + c₂x[tex]e^(^x^)[/tex] + c₃x²[tex]e^(^x^)[/tex] + ... + cₙ₋₁[tex]x^(^n^-^1^)e^(^x^)[/tex], where c₁, c₂, ..., cₙ₋₁ are constants.

When we have a homogeneous linear differential equation of nth order, the characteristic equation is obtained by replacing y(x) with [tex]e^(^r^x^)[/tex], where r is a constant. For this particular equation, the characteristic equation is given as [tex](r - 1)^n[/tex] = 0.

The equation [tex](r - 1)^n[/tex] = 0 has a repeated root of r = 1 with multiplicity n. This means that the general solution will involve terms of the form [tex]e^(^1^x^)[/tex], x[tex]e^(^1^x^)[/tex], x²[tex]e^(^1^x^)[/tex], and so on, up to[tex]x^(^n^-^1^)[/tex][tex]e^(^1^x^)[/tex].

The constants c₁, c₂, ..., cₙ₋₁ are coefficients that can be determined by the initial conditions or boundary conditions of the specific problem.

Each term in the general solution corresponds to a linearly independent solution of the differential equation.

The exponential term [tex]e^(^x^)[/tex] represents the basic solution, and the additional terms involving powers of x account for the repeated root.

In summary, the general solution to the nth order homogeneous differential equation with characteristic equation [tex](r - 1)^n[/tex] = 0 is y(x) = c₁[tex]e^(^x^)[/tex]+ c₂x[tex]e^(^x^)[/tex] + c₃x²[tex]e^(^x^)[/tex] + ... + cₙ₋₁[tex]x^(^n^-^1^)e^(^x^)[/tex], where c₁, c₂, ..., cₙ₋₁ are constants that can be determined based on the specific problem.

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The equation of the line y = 7x + 0.4 in standard form with integer coefficients is 70x - 10y = -4.

To write the equation of the line y = 7x + 0.4 in standard form with integer coefficients, we need to eliminate the decimal coefficient. Multiply both sides of the equation by 10 to remove the decimal, we obtain:

10y = 70x + 4

Now, rearrange the terms so that the equation is in the form Ax + By = C, where A, B, and C are integers:

-70x + 10y = 4

To ensure that the coefficients are integers, we can multiply the entire equation by -1:

70x - 10y = -4

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Question 1: To make the equation =3 true, the bracket placement needed is B (8).

So the equation becomes 3 + (4x2) - 2x3 = 3.

Question 2: The linear equation is A. 3x + 2y + z = 4.

Question 3: In 2021, Nonhle's gross salary increased to r45,000. The new income tax rate is 16%. To find the percentage increase in Nonhle's net salary, we can calculate the difference between the net salary in 2020 and 2021, and then calculate the percentage increase. However, the net salary formula is needed to proceed with the calculation.

Question 4: Let x represent the amount spent on the daughter's fifth birthday. The amount spent on her sixth birthday is 5x + 6x = 11x, and the amount spent on her seventh birthday is r700. The total amount spent is x + 11x + r700 = r3100. Solving this equation will give the value of x.

Question 5: Let the current ages of the relatives be 7x and x. In 6 years, their ages will be 7x + 6 and x + 6. Setting up the ratio equation, we have (7x + 6)/(x + 6) = 5/2. Solving this equation will give the current ages of the relatives.

Question 6: The equation that does not pass through the point (3, -4) is A. 2x - 3y = 18.

Question 7: Initially, the ratio of sweets is 3:6:5. After the father buys 30 more sweets, the total number of sweets becomes 42 + 30 = 72. The new ratio of the sibling's share of sweets can be found by dividing 72 equally into the ratio 3:6:5. Simplifying the ratios will give the new ratio.

Question 8: Rearranging the given linear equation 5y - 3x - 4 = 0 in the form y = mx + c, we have y = (3/5)x + 4/5. Therefore, the value of m is 3/5 and the value of c is 4/5.

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Analysis of the data reveals that the age groups most affected by the situation can be determined by examining the prevalence rates across different age groups. It is important to note that without specific data, it is challenging to provide precise figures for prevalence rates or determine the exact age groups most and least affected.

However, based on general trends and observations, it is often observed that older age groups, such as individuals above the age of 60, tend to be more susceptible to certain health conditions or diseases. This could be due to a variety of factors, including weakened immune systems, underlying health conditions, or reduced access to healthcare. Therefore, it is likely that the older age groups may be more affected compared to younger age groups.

On the other hand, younger age groups, particularly children and adolescents, are often considered to be more resilient and less prone to severe health conditions. Their immune systems are generally stronger, and they may have fewer underlying health issues. However, it is important to note that this is a general trend, and there can still be cases where younger age groups are affected by specific health conditions or diseases. Additionally, the impact on age groups can vary depending on the specific situation being analyzed.

To provide a more accurate analysis and determine the prevalence rate per age group, it would be necessary to have access to specific data related to the situation being examined. This data would include the number of cases or individuals affected within each age group. By comparing the number of affected individuals within each age group to the total population within that age group, the prevalence rate can be calculated. This rate provides a measure of the proportion of individuals within a specific age group who are affected by the situation.

In conclusion, without specific data, it is challenging to provide a definitive answer regarding which age groups are most and least affected by the situation. However, based on general observations, older age groups may be more affected due to various factors, while younger age groups, particularly children and adolescents, tend to be more resilient. To determine the prevalence rate per age group accurately, specific data related to the situation under analysis is required, including the number of affected individuals within each age group and the total population of each age group.

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Answer:

B. 7.5

Step-by-step explanation:

One right triangle is formed by:

Another similar right triangle is formed by:

Proportionality of similar sides:

First set of similar sides:

Second set of similar sides:

Now we can create proportions to solve for s, the length of the shadow:

18 / 6 = (15 + s) / s

(3 = (15 + s) / s) * s

(3s = 15 + s) - s

(2s = 15) / 2

s = 7.5

Thus, the length of the shadow is 7.5 ft.

Check the validity of the answer:

We can check our answer by substituting 7.5 for s and seeing if we get the same answer on both sides of the equation we just used to solve for s:

18 / 6 = (15 + 7.5) / 7.5

3 = 22.5 / 7.5

3 = 3

Thus, our answer is correct.

Answer:

B.  7.5

[tex]\hrulefill[/tex]

Step-by-step explanation:

The given diagram shows two similar right triangles.

Let "x" be the base of the smaller triangle. Therefore:

In similar triangles, corresponding sides are always in the same ratio. Therefore, we can set up the following ratio of base to height:

[tex]\begin{aligned}\sf \underline{Smaller\;triangle}\; &\;\;\;\;\;\sf \underline{Larger\;triangle}\\\\\sf base:height&=\sf base:height\\\\x:6&=(15+x):18\end{aligned}[/tex]

Express the ratios as fractions:

[tex]\dfrac{x}{6}=\dfrac{(15+x)}{18}[/tex]

Cross multiply and solve for x:

[tex]\begin{aligned}18x&=6(15+x)\\\\18x&=90+6x\\\\18x-6x&=90+6x-6x\\\\12x&=90\\\\\dfrac{12x}{12}&=\dfrac{90}{12}\\\\x&=7.5\end{aligned}[/tex]

Therefore, the shadow of the tree is 7.5 feet long.

The central angle of the minor sector is given as 72° and then the length of the minor arc AB is 16 cm.

To calculate the length of the minor arc AB, we need to determine the fraction of the circumference represented by the central angle of the sector.

The central angle of the minor sector is given as 72°. To find the fraction of the circumference corresponding to this angle, we divide the angle measure by 360° (the total angle in a circle).

Fraction of circumference = (angle measure / 360°)

Fraction of circumference = (72° / 360°) = 1/5

Now, we can find the length of the minor arc AB by multiplying the fraction of the circumference by the total circumference of the circle.

Length of minor arc AB = (1/5) * 80 cm = 16 cm

Therefore, the length of the minor arc AB is 16 cm.

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6.1. The derivative of f(x) = x² + cos(x) is f'(x) = 2x - sin(x). 6.2. The derivative of f(x) = -x² + 4x - 7 is f'(x) = -2x + 4.7.1. f'(x) = (-x³ - 2x + 3)(10x - 8) + (-3x² - 2)(5x² - 8x - 9).

7.2. The derivative of f(x) = (-¹)-1 is f'(x) = 0 since it is a constant. 7.3. The derivative of f(x) = (-2x² - x)(-4²) is f'(x) = 32. 8.1. dy/dx = -1/(51³) + (384/((1 - 32²)(1 - 32²))) × x. 8.2. dg/dt = 2e⁻²ᵗ/(e⁻²ᵗ- 1/3)

6.1 To find the derivative of f(x) = x² + cos(x) using the first principle, compute the limit as h approaches 0 of [f(x + h) - f(x)] / h.

f(x) = x² + cos(x)

f(x + h) = (x + h)² + cos(x + h)

Now let's substitute these values into the formula for the first principle:

[f(x + h) - f(x)] / h = [(x + h)² + cos(x + h) - (x² + cos(x))] / h

Expanding and simplifying the numerator:

= [(x² + 2xh + h²) + cos(x + h) - x² - cos(x)] / h

= [2xh + h² + cos(x + h) - cos(x)] / h

Taking the limit as h approaches 0:

lim(h→0) [2xh + h² + cos(x + h) - cos(x)] / h

Now, divide each term by h:

= lim(h→0) (2x + h + (cos(x + h) - cos(x))) / h

Taking the limit as h approaches 0:

= 2x + 0 + (-sin(x))

Therefore, the derivative of f(x) = x² + cos(x) is f'(x) = 2x - sin(x).

62. To find the derivative of f(x) = -x² + 4x - 7 using the first principle, we again compute the limit as h approaches 0 of [f(x + h) - f(x)] / h.

f(x) = -x² + 4x - 7

f(x + h) = -(x + h)² + 4(x + h) - 7

Now, substitute these values into the formula for the first principle:

[f(x + h) - f(x)] / h = [-(x + h)² + 4(x + h) - 7 - (-x² + 4x - 7)] / h

Expanding and simplifying the numerator:

= [-(x² + 2xh + h²) + 4x + 4h - 7 + x² - 4x + 7] / h

= [-x² - 2xh - h² + 4x + 4h - 7 + x² - 4x + 7] / h

= [-2xh - h² + 4h] / h

Taking the limit as h approaches 0:

lim(h→0) [-2xh - h² + 4h] / h

Now, divide each term by h:

= lim(h→0) (-2x - h + 4)

Taking the limit as h approaches 0:

= -2x + 4

Therefore, the derivative of f(x) = -x² + 4x - 7 is f'(x) = -2x + 4.

7.1 To find the derivative of f(x) = (-x³ - 2x - 2 + 5)(x + 5x² - x - 9), we can simplify the expression first and then differentiate using the product rule.

f(x) = (-x³ - 2x - 2 + 5)(x + 5x² - x - 9)

Simplifying the expression:

f(x) = (-x³ - 2x + 3)(5x² - 8x - 9)

Now, we can differentiate using the product rule:

f'(x) = (-x³ - 2x + 3)(10x - 8) + (-3x² - 2)(5x² - 8x - 9)

Simplifying the expression further will involve expanding and combining like terms.

7.2 To find the derivative of f(x) = (-¹)-1, note that (-¹)-1 is equivalent to (-1)-1, which is -1. Therefore, the derivative of f(x) = (-¹)-1 is f'(x) = 0 since it is a constant.

7.3 To find the derivative of f(x) = (-2x² - x)(-4²), we can differentiate each term separately using the product rule.

f(x) = (-2x² - x)(-4²)

Differentiating each term:

f'(x) = (-2)(-4²) + (-2x² - x)(0)

Simplifying:

f'(x) = 32 + 0

Therefore, the derivative of f(x) = (-2x² - x)(-4²) is f'(x) = 32.

8.1 To differentiate y = ln(-51³) + 21 - 31 - 6ln(1 - 32²), we can use the chain rule and the power rule.

Differentiating each term:

dy/dx = [d/dx ln(-51³)] + [d/dx 21] - [d/dx 31] - [d/dx 6ln(1 - 32²)]

The derivative of ln(x) is 1/x:

dy/dx = [1/(-51³)] + 0 - 0 - 6[1/(1 - 32²)] × [d/dx (1 - 32²)]

Differentiating (1 - 32²) using the power rule:

dy/dx = [1/(-51³)] - 6[1/(1 - 32²)] * (-64x)

Simplifying:

dy/dx = -1/(51³) + (384/((1 - 32²)(1 - 32²))) × x

8.2 To differentiate g(t) = 2ln(-3) - ln(e⁻²ᵗ - 1/3), we can use the properties of logarithmic differentiation.

Differentiating each term:

dg/dt = [d/dt 2ln(-3)] - [d/dt ln(e⁻²ᵗ - 1/3)]

The derivative of ln(x) is 1/x:

dg/dt = [0] - [1/(e⁻²ᵗ - 1/3)] × [d/dt (e⁻²ᵗ - 1/3)]

Differentiating (e⁻²ᵗ - 1/3) using the chain rule:

dg/dt = -[1/(e⁻²ᵗ - 1/3)] × (e⁻²ᵗ) × (-2)

Simplifying:

dg/dt = 2e⁻²ᵗ/(e⁻²ᵗ - 1/3)

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The correct answer is f'(x) = -64x - 16

Let's go through each question and determine the derivatives as requested:

6.1 f(x) = x² + cos(x)

Using the first principle, we differentiate f(x) as follows:

f'(x) = lim(h→0) [(f(x + h) - f(x))/h]

= lim(h→0) [(x + h)² + cos(x + h) - (x² + cos(x))/h]

= lim(h→0) [x² + 2xh + h² + cos(x + h) - x² - cos(x))/h]

= lim(h→0) [2x + h + cos(x + h) - cos(x)]

= 2x + cos(x)

Therefore, f'(x) = 2x + cos(x).

6.2 f(x) = -x² + 4x - 7

Using the first principle, we differentiate f(x) as follows:

f'(x) = lim(h→0) [(f(x + h) - f(x))/h]

= lim(h→0) [(-x - h)² + 4(x + h) - 7 - (-x² + 4x - 7))/h]

= lim(h→0) [(-x² - 2xh - h²) + 4x + 4h - 7 + x² - 4x + 7)/h]

= lim(h→0) [-2xh - h² + 4h]/h

= lim(h→0) [-2x - h + 4]

= -2x + 4

Therefore, f'(x) = -2x + 4.

7.1 f(x) = (-x³ - 2x - 2 + 5)(x + 5x² - x - 9)

Expanding and simplifying the expression, we have:

f(x) = (-x³ - 2x + 3)(5x² - 8)

To find f'(x), we can use the product rule:

f'(x) = (-x³ - 2x + 3)(10x) + (-3x² - 2)(5x² - 8)

Simplifying the expression:

f'(x) = -10x⁴ - 20x² + 30x - 15x⁴ + 24x² + 10x² - 16

= -25x⁴ + 14x² + 30x - 16

Therefore, f'(x) = -25x⁴ + 14x² + 30x - 16.

7.2 f(x) = (-1)-1

Using the power rule for differentiation, we have:

f'(x) = (-1)(-1)⁻²

= (-1)(1)

= -1

Therefore, f'(x) = -1.

7.3 f(x) = (-2x² - x)(-4²)

Expanding and simplifying the expression, we have:

f(x) = (-2x² - x)(16)

To find f'(x), we can use the product rule:

f'(x) = (-2x² - x)(0) + (-4x - 1)(16)

Simplifying the expression:

f'(x) = -64x - 16

Therefore, f'(x) = -64x - 16.

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The equation in a standard form that has the solutions y = 1/7 and y = 7.

To find an equation with the given solutions y = 1/7 and y = 7, we can use the fact that the solutions of a quadratic equation are given by the formula:

y = ax^2 + bx + c

We know that the solutions are y = 1/7 and y = 7, so we can set up two equations based on these solutions:

1/7 = a(1/7)^2 + b(1/7) + c -- Equation 1

7 = a(7)^2 + b(7) + c -- Equation 2

Simplifying Equation 1:

1/7 = a/49 + b/7 + c

Multiplying through by 49 to eliminate the fractions:

7 = a + 7b + 49c

Simplifying Equation 2:

7 = 49a + 7b + c

Now, we have a system of linear equations:

7 = a + 7b + 49c -- Equation 3

7 = 49a + 7b + c -- Equation 4

To eliminate variables, we can subtract Equation 3 from Equation 4:

0 = 48a - 48c

Dividing by 48:

0 = a - c

We can substitute this value back into Equation 3:

7 = (a - c) + 7b + 49c

Simplifying:

7 = a + 7b + 48c

Now, we have a simplified equation that satisfies both solutions:

a + 7b + 48c = 7

This is the equation in a standard form that has the solutions y = 1/7 and y = 7.

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The scalars a and b are a = 1 and b = -2, respectively, to satisfy the equation au + bv = (6, -5, -2, 1, 5).

(a) To find the components of u - v, subtract the corresponding components of u and v:

u - v = (-3, 1, 2, 4, 4) - (4, 0, -8, 1, 2) = (-3 - 4, 1 - 0, 2 - (-8), 4 - 1, 4 - 2) = (-7, 1, 10, 3, 2)

The components of u - v are (-7, 1, 10, 3, 2).

(b) To find the components of 2v + 3w, multiply each component of v by 2 and each component of w by 3, and then add the corresponding components:

2v + 3w = 2(4, 0, -8, 1, 2) + 3(6, -1, -4, 3, -5) = (8, 0, -16, 2, 4) + (18, -3, -12, 9, -15) = (8 + 18, 0 - 3, -16 - 12, 2 + 9, 4 - 15) = (26, -3, -28, 11, -11)

The components of 2v + 3w are (26, -3, -28, 11, -11).

(c) To find the components of (3u + 4v) - (7w + 3u), simplify and combine like terms:

(3u + 4v) - (7w + 3u) = 3u + 4v - 7w - 3u = (3u - 3u) + 4v - 7w = 0 + 4v - 7w = 4v - 7w

The components of (3u + 4v) - (7w + 3u) are 4v - 7w.

Let u=(2,1,0,1,−1) and v=(−2,3,1,0,2).

Find scalars a and b so that au+bv=(6,−5,−2,1,5)

Let's assume that au + bv = (6, -5, -2, 1, 5).

To find the scalars a and b, we need to equate the corresponding components:

2a + (-2b) = 6 (for the first component)

a + 3b = -5 (for the second component)

0a + b = -2 (for the third component)

a + 0b = 1 (for the fourth component)

-1a + 2b = 5 (for the fifth component)

Solving this system of equations, we find:

a = 1

b = -2

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The solution to the given equations is p = 15 and a = -15.

To solve the given equations using the reduction method, we'll start by isolating one variable in one equation and substituting it into the other equation.

Equation 1: A + 15

Equation 2: p + 15 = 2(a + 15)

Let's isolate "a" in Equation 2:

p + 15 = 2a + 30 [Distribute the 2]

2a = p + 15 - 30 [Subtract 30 from both sides]

2a = p - 15

Now, we substitute this value of "2a" into Equation 1:

A + 15 = p - 15 [Substitute 2a with p - 15]

Next, we can simplify this equation by isolating the variables:

A = p - 15 - 15 [Subtract 15 from both sides]

A = p - 30

Now we have two equations:

Equation 3: A = p - 30

Equation 4: p + 15 = 2(a + 15)

To solve for the unknown values, we'll substitute Equation 3 into Equation 4:

p + 15 = 2((p - 30) + 15) [Substitute A with p - 30]

Next, we simplify and solve for "p":

p + 15 = 2(p - 15 + 15) [Simplify within the parentheses]

p + 15 = 2p

Now, subtract "p" from both sides:

p + 15 - p = 2p - p

15 = p

Therefore, the unknown value "p" is 15.

To find the value of "a," we substitute this value back into Equation 3:

A = p - 30

A = 15 - 30

A = -15

Therefore, the unknown value "a" is -15.

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To prove the given identities:

(a) cos(x+2π) = cos(x)
We know that cos(x+2π) = cos(x) because the cosine function has a period of 2π. This means that the value of the cosine function repeats every 2π radians. Adding 2π to the angle x doesn't change the value of the cosine function, so cos(x+2π) is equal to cos(x).

(b) sin2x = 2tanx/sec^2x
To prove this identity, we'll use the trigonometric identities sin2x = 2sinxcosx, tanx = sinx/cosx, and sec^2x = 1/cos^2x.

Starting with sin2x = 2sinxcosx, we'll replace sinx with tanx/cosx (using the identity tanx = sinx/cosx):
sin2x = 2(tanx/cosx)cosx
sin2x = 2tanx

Now, we'll replace tanx with sinx/cosx and sec^2x with 1/cos^2x:
sin2x = 2tanx
sin2x = 2(sinx/cosx)
sin2x = 2(sinxcosx/cosx)
sin2x = 2sinxcosx/cosx
sin2x = 2sec^2x

So, sin2x is equal to 2tanx/sec^2x.

In conclusion, we have proved the given identities:
(a) cos(x+2π) = cosx
(b) sin2x = 2tanx/sec^2x

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David received a loan of $38,200 from a bank that charged an interest of 5.75% compounded semi-annually. We need to calculate the following questions:

A. How much does he need to pay at the end of every 6 months to settle the loan in years? Round to the nearest cent.

B. What was the amount of interest charged on the loan over the 6-year period?Round to the nearest cent. To find the above solutions, we need to use the formula for compound interest.

[tex]A = P(1 + r/n)^(nt)[/tex]

Where, A = the final amount P = the principal amount r = the annual interest rate n = the number of times the interest is compounded per year.t = the time (in years)First, we will find the amount of payment needed to settle the loan at the end of every 6 months.

To calculate the payment for 6 years, we need to multiply the time (in years) by the number of times the interest is compounded per year.[tex](6 x 2) = 12n = 12r = 5.75% / 2 = 2.875%P = 38,200[/tex] Using the above values in the formula, we get:

A =[tex]38,200(1 + 0.02875)^(12x6)A = $55,050.18[/tex]

The amount to pay at the end of every 6 months to settle the loan in 6 years is:

[tex]$55,050.18/12[/tex]

= $4,587.52 (rounded to the nearest cent)Now, we will find the amount of interest charged on the loan over the 6-year period.

Amount of interest = (Final amount - Principal amount)

Amount of interest = $55,050.18 - $38,200

Amount of interest = $16,850.18

Amount of interest charged on the loan over the 6-year period is $16,850.18(rounded to the nearest cent).

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The estimated ending inventory value using the gross profit method would be $20,600.

To calculate the estimated ending inventory using the gross profit method, you can follow these steps:

1. Determine the Cost of Goods Sold (COGS):

  COGS = Net Sales - Gross Profit

  Gross Profit = Net Sales * Gross Profit Ratio

  Given that the gross profit ratio is 20%, the gross profit can be calculated as follows:

  Gross Profit = $85,000 * 20% = $17,000

  COGS = $85,000 - $17,000 = $68,000

2. Calculate the Ending Inventory:

  Ending Inventory = Beginning Inventory + Net Purchases - COGS

  Given that the beginning inventory is $5,600 and net purchases are $83,000, the ending inventory can be calculated as follows:

  Ending Inventory = $5,600 + $83,000 - $68,000 = $20,600

Therefore, the estimated ending inventory value using the gross profit method would be $20,600.

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The water consumption of a family of five that recently replaced its 5-gallon-per-minute showerheads with water-saving 2-gallon-per-minute showerheads with each member of the family averaging 8 minutes in the shower per day is 80 gallons per day.

The first step is to calculate the water consumption per person for an 8-minute shower using a 5-gallon-per-minute showerhead.5 gallons per minute x 8 minutes = 40 gallons per person per shower.

The next step is to calculate the water consumption per person for an 8-minute shower using a 2-gallon-per-minute showerhead.2 gallons per minute x 8 minutes = 16 gallons per person per shower.

The difference between the two is the water saved per person per shower.40 gallons - 16 gallons = 24 gallons saved per person per shower.

Now we need to multiply the water saved per person per shower by the number of people in the family.24 gallons saved per person per shower x 5 people = 120 gallons saved per day.

Finally, we need to subtract the water saved per day from the water consumption per day using the old showerheads.5 gallons per minute x 8 minutes x 5 people = 200 gallons per day200 gallons per day - 120 gallons saved per day = 80 gallons per day.

The water consumption of a family of five that recently replaced its 5-gallon-per-minute showerheads with water-saving 2-gallon-per-minute showerheads with each member of the family averaging 8 minutes in the shower per day is 80 gallons per day.

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The solutions for the given quadratic equation are x = 5/2 and x = 3.

The given quadratic equation is 2x² - 11x + 15 = 0. To solve the given quadratic equation using factoring method, follow these steps:

First, we need to multiply the coefficient of x² with constant term. So, 2 × 15 = 30. Second, we need to find two factors of 30 whose sum should be equal to the coefficient of x which is -11 in this case.

Let's find the factors of 30 which adds up to -11.-1, -30 sum = -31-2, -15 sum = -17-3, -10 sum = -13-5, -6 sum = -11

There are two factors of 30 which adds up to -11 which is -5 and -6.

Therefore, 2x² - 11x + 15 = 0 can be rewritten as follows:

2x² - 5x - 6x + 15 = 0

⇒ (2x² - 5x) - (6x - 15) = 0

⇒ x(2x - 5) - 3(2x - 5) = 0

⇒ (2x - 5)(x - 3) = 0

Therefore, the solutions for the given quadratic equation are x = 5/2 and x = 3.

The factored form of the given quadratic equation is (2x - 5)(x - 3) = 0.

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The integrating factor that makes the equation exact is μ(x, y) = e^(4/9 * (x³/3 + C)), where C is a constant.

To determine if the given equation is exact, we check if the partial derivatives of the coefficients with respect to y and x, respectively, are equal.

The given equation is:

4x³y dx + 9x¹ dy = 0

Taking the partial derivative of 4x³y with respect to y, we get:

∂/∂y (4x³y) = 4x³

Taking the partial derivative of 9x¹ with respect to x, we get:

∂/∂x (9x¹) = 9

Since the partial derivatives are not equal (4x³ ≠ 9), the given equation is not exact.

To find an integrating factor that makes the equation exact, we can multiply the entire equation by a suitable integrating factor, denoted by μ(x, y). By multiplying the equation by μ(x, y), we aim to find a function μ(x, y) such that the resulting equation becomes exact.

The integrating factor μ(x, y) can be determined by the formula:

μ(x, y) = e^(∫(M_y - N_x) / N dx)

In this case, M = 4x³y and N = 9x¹.

Calculating the required partial derivatives:

M_y = 4x³

N_x = 0

Substituting these values into the formula, we have:

μ(x, y) = e^(∫(4x³ - 0) / 9x¹ dx)

= e^(4/9 ∫x² dx)

= e^(4/9 * (x³/3 + C))

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There are no unit vectors w such that the directional derivative of f at (3,2) in the direction of w is 0.

To find the values of a and b, we can use the given information about the directional derivatives of f at the point (3,2) in the directions of u and v.

The directional derivative of f at (3,2) in the direction of u is given as 2. We can calculate this using the gradient of f and the dot product with the unit vector u:

∇f(3,2) ⋅ u = 2.

The gradient of f is given by ∇f(x,y) = (∂f/∂x, ∂f/∂y), so in our case, it becomes:

∇f(x,y) = (a+by, bx).

Substituting the point (3,2), we have:

∇f(3,2) = (a+2b, 3b).

Taking the dot product with u=(1,1), we get:

(a+2b)(1) + (3b)(1) = 2.

Simplifying this equation, we have:

a + 5b = 2.

Similarly, we can find the directional derivative in the direction of v. Using the same process:

∇f(3,2) ⋅ v = -1.

Substituting the point (3,2) and v=(1,0), we get:

(a+2b)(1) + (3b)(0) = -1.

Simplifying this equation, we have:

a + 2b = -1.

Now, we have a system of two equations:

a + 5b = 2,

a + 2b = -1.

Solving this system of equations, we can subtract the second equation from the first to eliminate a:

3b = 3.

Solving for b, we get b = 1.

Substituting this value of b into the second equation, we can find a:

a + 2(1) = -1,

a + 2 = -1,

a = -3.

Therefore, the values of a and b are a = -3 and b = 1.

To find the unit vectors w such that the directional derivative of f at (3,2) in the direction of w is 0, we can use the gradient of f and set it equal to the zero vector:

∇f(3,2) ⋅ w = 0.

Substituting the values of a and b, and using the point (3,2), we have:

(-3+2)(1) + (2)(0) = 0,

-1 = 0.

This equation is not satisfied for any unit vector w. Therefore, there are no unit vectors w such that the directional derivative of f at (3,2) in the direction of w is 0.

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I have chosen the following three regions of the world: North America, Europe, and East Asia. The chosen regions share commonalities in terms of economic development, technological advancement, education, infrastructure, and cultural diversity. These similarities contribute to their global influence and make them important players in the contemporary world.

These regions have several commonalities that can be identified through internet research:

Economic Development: All three regions are highly developed and have strong economies. They are home to some of the world's largest economies and play a significant role in global trade and commerce.

Technological Advancement: North America, Europe, and East Asia are known for their technological advancements and innovation. They are leaders in fields such as information technology, telecommunications, and manufacturing.

Education and Research: These regions prioritize education and have renowned universities and research institutions. They invest heavily in research and development, contributing to scientific advancements and intellectual growth.

Infrastructure: The regions boast well-developed infrastructure, including efficient transportation networks, modern cities, and advanced communication systems.

Cultural Diversity: North America, Europe, and East Asia are culturally diverse, with a rich heritage of art, literature, and cuisine. They attract tourists and promote cultural exchange through various festivals and events.

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An angle supplementary to ∠JAE could be ∠EAF.

Supplementary angles are pairs of angles that add up to 180 degrees. In this case, we are looking for an angle that, when combined with ∠JAE, forms a straight angle.

In the given scenario, ∠JAE is a given angle. To find an angle that is supplementary to ∠JAE, we need to find an angle that, when added to ∠JAE, results in a total measure of 180 degrees.

One possible angle that satisfies this condition is ∠EAF. If we add ∠JAE and ∠EAF, their measures will add up to 180 degrees, forming a straight angle.

Please note that there could be other angles that are supplementary to ∠JAE. As long as the sum of the measures of the angle and ∠JAE is 180 degrees, they can be considered supplementary.

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The expression (27 - 3) / (16 - 14) correctly represents the given statement and evaluates to 12.

The expression (27 - 3) / (16 - 14) represents the statement "divide the difference of 27 and 3 by the difference of 16 and 14." Let's break down the expression and explain its meaning.

In the numerator, we have the difference between 27 and 3, which is 24. This is obtained by subtracting 3 from 27.

In the denominator, we have the difference between 16 and 14, which is 2. This is obtained by subtracting 14 from 16.

To find the value of the expression, we divide the numerator (24) by the denominator (2):

(27 - 3) / (16 - 14) = 24 / 2 = 12.

Therefore, the expression evaluates to 12.

This expression represents a mathematical operation where we calculate the difference between two numbers (27 and 3) and divide it by the difference between two other numbers (16 and 14). It can be interpreted as finding the ratio between the changes in the first set of numbers compared to the changes in the second set.

In this case, the expression calculates that for every unit change in the first set (27 to 3), there is a 12-unit change in the second set (16 to 14).

By properly interpreting and evaluating the expression, we have determined that the result is 12.

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If Hong's loan is subsidized, his monthly payment is $486.20. If his loan is unsubsidized, his monthly payment is $586.24. The loan amount upon graduation for an unsubsidized loan is $19,465.86 due to accrued interest.

(a) If Hong's loan is subsidized, the interest on the loan is paid by the government while he is in school. Therefore, the loan amount upon graduation is the same as the original loan amount of $16,215. To find his monthly payment, we can use the formula for the present value of an annuity:

PV = PMT * (1 - (1 + r)^(-n)) / r

where PV is the present value of the loan, PMT is the monthly payment, r is the monthly interest rate (5.1% / 12), and n is the total number of payments (36 months).

Plugging in the given values, we get:

16,215 = PMT * (1 - (1 + 0.051/12)^(-36)) / (0.051/12)

Solving for PMT, we get:

PMT = 486.20

Therefore, if Hong's loan is subsidized, his monthly payment is $486.20.

(b) If Hong's loan is unsubsidized, the interest on the loan accrues while he is in school and is added to the loan balance upon graduation. The loan amount upon graduation is:

16,215 * (1 + 0.051 * 4) = 19,465.86

To find his monthly payment, we can again use the formula for the present value of an annuity. Plugging in the given values, we get:

19,465.86 = PMT * (1 - (1 + 0.051/12)^(-36)) / (0.051/12)

Solving for PMT, we get:

PMT = 586.24

Therefore, if Hong's loan is unsubsidized, his monthly payment is $586.24.

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The three major chords built on white notes without accidentals are:

1. C major chord (C, E, G)

2. F major chord (F, A, C)

3. G major chord (G, B, D)

These chords are formed by taking the root note, skipping one white note, and adding the next white note on top. For example, in the C major chord, the notes C, E, and G are played together to create a harmonious sound.

Similarly, the F major chord is formed by playing F, A, and C, and the G major chord is formed by playing G, B, and D. These three major chords are commonly used in various musical compositions and are fundamental building blocks in music theory.

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Answer:

A.   6,000 units²

Step-by-step explanation:

A = LW

A = 100 units × 60 units

A = 6000 units²

The missing number is B: 7.

The numbers in the grid follow a specific pattern. If we look closely, we can see that the first number in each row is multiplied by the second number and then added to the third number to obtain the fourth number.

For example:

In the first row, 2 * 3 + 5 = 11, which is the fourth number.

In the second row, 6 * 7 + 1 = 43, which is the fourth number.

Applying the same pattern to the third row, we have 78 * ? + 1 = 543. To find the missing number, we need to solve this equation.

By rearranging the equation, we get:

78 * ? = 543 - 1

78 * ? = 542

To isolate the missing number, we divide both sides of the equation by 78:

? = 542 / 78

? ≈ 6.97

Since the given options are whole numbers, we round the result to the nearest whole number, which is 7. Therefore, the missing number in the grid is B: 7.

The pattern in the grid involves multiplying the first number in each row by the second number and then adding the third number to obtain the fourth number.

This pattern is consistent throughout the grid, allowing us to apply it to find the missing number.

By setting up an equation with the known values and the missing number, we can solve for the missing value.

In this case, rearranging the equation and performing the necessary calculations reveals that the missing number is approximately 6.97.

However, since the given options are whole numbers, we round the result to the nearest whole number, which is 7. Therefore, the missing number in the grid is B: 7.

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The substance with a lower hydrogen ion concentration has a greater pH level, and the substance with a higher hydrogen ion concentration has a lower pH level. The pH level of Substance A minus the pH level of Substance B equals 0.3 (8.7 - 9)

The substance with lower hydrogen ion concentration has a greater pH level. If the hydrogen ion concentration of substance A is twice that of substance B, then substance B has a higher pH level. What is the greater pH level minus the lesser pH level?

The pH scale is logarithmic, ranging from 0 to 14. If Substance B has a hydrogen ion concentration of 1 x 10^-9 moles per liter (pH 9), Substance A would have a hydrogen ion concentration of 2 x 10^-9 moles per liter (pH 8.7). Therefore, the pH level of Substance A minus the pH level of Substance B equals 0.3 (8.7 - 9).

Explanation: The hydrogen ion concentration and the pH level are inversely related. pH is defined as the negative logarithm of the hydrogen ion concentration. The lower the hydrogen ion concentration, the higher the pH level, and vice versa. As a result, the substance with a lower hydrogen ion concentration has a greater pH level, and the substance with a higher hydrogen ion concentration has a lower pH level.

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The solution to the initial value problem dx/dy = -10-x, y(0) = -1 is y = e-x-10x-10.

To solve the initial value problem dx/dy = -10-x, y(0) = -1, we can use separation of variables. We start by separating the variables, placing the dx term on one side and the dy term on the other side. This gives us dx = -10-x dy.

Next, we integrate both sides of the equation. On the left side, we integrate dx, which gives us x. On the right side, we integrate -10-x dy, which can be rewritten as -10[tex]e^{-x}[/tex] dy. Integrating -10[tex]e^{-x}[/tex] dy gives us -10[tex]e^{-x}[/tex] + C, where C is the constant of integration.

Now, we solve for y by isolating it. We rewrite -10e-x + C as -10 - e-x + C to match the initial condition y(0) = -1. Plugging in the value of y(0), we have -10 - [tex]e^{0}[/tex] + C = -1. Simplifying this equation, we find C = 9.

Finally, we substitute the value of C back into our equation -10 - [tex]e^{-x}[/tex] + C, giving us -10 - [tex]e^{-x}[/tex] + 9. Simplifying further, we get y = -1 - [tex]e^{-x}[/tex].

Therefore, the solution to the initial value problem dx/dy = -10-x, y(0) = -1 is y = -1 - [tex]e^{-x}[/tex].

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a. The Fourier series of the periodic function is [tex][ a_0 = \frac{1}{2} \int_{-1}^{1} 3t^2 dt = \frac{1}{2} \left[t^3\right]_{-1}^{1} = 0 ]\\[ a_n = \frac{2}{2} \int_{-1}^{1} 3t^2 \cos(n\pi t) dt = 3 \int_{-1}^{1} t^2 \cos(n\pi t) dt ]\\\[ b_n = \frac{2}{2} \int_{-1}^{1} 3t^2 \sin(n\pi t) dt = 3 \int_{-1}^{1} t^2 \sin(n\pi t) dt \][/tex]

b. (i) The function f(x) = 2x⁵ - 5x³ + 7 is an even function.

(ii) The function f(x) = x³ + x⁴ is neither even nor odd.

c. Fourier series representation of f(x) = x on -L ≤ x L is

[tex]\[ f(x) = \sum_{n=1}^{\infty} \frac{2}{n\pi} (-1)^n \sin\left(\frac{n\pi x}{L}\right) \][/tex]

(a) To find the Fourier series of the periodic function[tex]\( f(t) = 3t^2 \), \(-1 \leq t \leq 1\)[/tex], we can use the formula for the Fourier coefficients:

[tex][ a_0 = \frac{1}{T} \int_{-T/2}^{T/2} f(t) dt \]\\[ a_n = \frac{2}{T} \int_{-T/2}^{T/2} f(t) \cos\left(\frac{2\pi n t}{T}\right) dt]\\\[ b_n = \frac{2}{T} \int_{-T/2}^{T/2} f(t) \sin\left(\frac{2\pi n t}{T}\right) dt \][/tex]

where T is the period of the function. In this case, T = 2.

Calculating the coefficients:

[tex][ a_0 = \frac{1}{2} \int_{-1}^{1} 3t^2 dt = \frac{1}{2} \left[t^3\right]_{-1}^{1} = 0 ]\\[ a_n = \frac{2}{2} \int_{-1}^{1} 3t^2 \cos(n\pi t) dt = 3 \int_{-1}^{1} t^2 \cos(n\pi t) dt ]\\\[ b_n = \frac{2}{2} \int_{-1}^{1} 3t^2 \sin(n\pi t) dt = 3 \int_{-1}^{1} t^2 \sin(n\pi t) dt \][/tex]

To find the values of aₙ and bₙ, we need to evaluate these integrals. However, they might not have a simple closed form. We can expand t² using the power series representation and then integrate the resulting terms multiplied by either cos(nπt) or sin(nπt). The resulting integrals will involve products of trigonometric functions and powers of t.

(b) To determine whether a function is odd, even, or neither, we analyze its symmetry.

(i) For the function f(x) = 2x⁵ - 5x³ + 7:

- Evenness: A function is even if f(x) = f(-x).

 We substitute -x into the function:

[tex]\( f(-x) = 2(-x)^5 - 5(-x)^3 + 7 = 2x^5 - 5x^3 + 7 \)[/tex]

 Since f(-x) = f(x), the function is even.

(ii) For the function f(x) = x³ + x⁴:

- Oddness: A function is odd if f(x) = -f(-x)

 We substitute -x into the function:

[tex]\( -f(-x) = -(x)^3 - (x)^4 = -x^3 - x^4 \)[/tex]

 Since f(x) is not equal to -f(-x), the function is neither odd nor even.

(c) The Fourier series for the function  f(x) = x on -L ≤ x ≤ L  can be calculated using the Fourier coefficients:

[tex]\[ a_0 = \frac{1}{2L} \int_{-L}^{L} f(x) dx \]\\[ a_n = \frac{1}{L} \int_{-L}^{L} f(x) \cos\left(\frac{n\pi x}{L}\right) dx ]\\[ b_n = \frac{1}{L} \int_{-L}^{L} f(x) \sin\left(\frac{n\pi x}{L}\right) dx \][/tex]

In this case, -L = -L and L = L, so the integrals simplify:

[tex][ a_0 = \frac{1}{2L} \int_{-L}^{L} x dx = \frac{1}{2L} \left[\frac{x^2}{2}\right]_{-L}^{L} = \frac{1}{2L} \left(\frac{L^2}{2} - \frac{(-L)^2}{2}\right) = 0 ]\\[ a_n = \frac{1}{L} \int_{-L}^{L} x \cos\left(\frac{n\pi x}{L}\right) dx = 0 ]\\\[ b_n = \frac{1}{L} \int_{-L}^{L} x \sin\left(\frac{n\pi x}{L}\right) dx = \frac{2}{L^2} \left[-\frac{L}{n\pi} \cos\left(\frac{n\pi x}{L}\right) \right]_{-L}^{L} = \frac{2}{n\pi} (-1)^n \]\\[/tex]

The Fourier series representation of f(x) = x on -L ≤ x L

[tex]\[ f(x) = \sum_{n=1}^{\infty} \frac{2}{n\pi} (-1)^n \sin\left(\frac{n\pi x}{L}\right) \][/tex]

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The Fourier series for f(x) = x on −L ≤ x ≤ L is given by:`f(x)=∑_(n=1)^∞[2L/(nπ)(-1)^n sin(nπx/L)]`, for −L ≤ x ≤ L.

(a) Find the Fourier series of the periodic function f(t)=3t2,−1≤t≤1.

In order to find the Fourier series of the periodic function f(t)=3t2, −1 ≤ t ≤ 1, let us begin by computing the Fourier coefficients.

First, we can find the a0 coefficient by utilizing the formula a0 = (1/2L) ∫L –L f(x) dx, as follows.

We get: `a_0=(1/(2*1))∫_(1)^(1) 3t^2dt=0`For n ≠ 0, we can find the Fourier coefficients an and bn using the following formulas:`a_n= (1/L) ∫L –L f(x) cos (nπx/L) dx``b_n= (1/L) ∫L –L f(x) sin (nπx/L) dx`

Thus, we get: `a_n=(1/2)∫_(-1)^(1) 3t^2 cos(nπt)dt=((3(-1)^n)/(nπ)^2), n≠0``b_n=(1/2)∫_(-1)^(1) 3t^2 sin(nπt)dt=0, n≠0`

Therefore, the Fourier series for the periodic function f(t) = 3t2, −1 ≤ t ≤ 1 is given by:`f(t)=∑_(n=1)^∞(3((-1)^n)/(nπ)^2)cos(nπt)`, b0 = 0, and n = 1, 2, 3, ...

(b) Find out whether the following functions are odd, even or neither:

(i) 2x5 – 5x3 + 7Let us first check whether the function is even or odd by using the properties of even and odd functions.

If f(-x) = f(x), the function is even.

If f(-x) = -f(x), the function is odd.

Let us evaluate the given function for f(-x) and f(x) to determine whether the function is even or odd.

We get:`f(-x)=2(-x)^5-5(-x)^3+7=-2x^5+5x^3+7``f(x)=2x^5-5x^3+7`

Thus, since f(-x) ≠ -f(x) and f(-x) ≠ f(x), the function is neither even nor odd.

(ii) x3 + x4

Let us first check whether the function is even or odd by using the properties of even and odd functions.

If f(-x) = f(x), the function is even.If f(-x) = -f(x), the function is odd.

Let us evaluate the given function for f(-x) and f(x) to determine whether the function is even or odd.

We get:`f(-x)=(-x)^3+(-x)^4=-x^3+x^4``f(x)=x^3+x^4`

Thus, since f(-x) ≠ -f(x) and f(-x) ≠ f(x), the function is neither even nor odd.

(c) Find the Fourier series for f(x)=x on −L≤x≤L.

The Fourier series of the function f(x) = x on −L ≤ x ≤ L can be found using the following formulas: `a_n= (1/L) ∫L –L f(x) cos (nπx/L) dx` `b_n= (1/L) ∫L –L f(x) sin (nπx/L) dx`For n = 0, we have:`a_0= (1/2L) ∫L –L f(x) dx`

Thus, for f(x) = x on −L ≤ x ≤ L,

we get:`a_0=1/2L ∫_(–L)^L x dx=0``a_n= (1/L) ∫L –L f(x) cos (nπx/L) dx`  `= (1/L) ∫L –L x cos (nπx/L) dx``= 2L/(nπ)^2(sin(nπ)-nπ cos(nπ))`=0`

Therefore, `a_n= 0`, for all n.For `n ≠ 0, b_n= (1/L) ∫L –L f(x) sin (nπx/L) dx`  `= (1/L) ∫L –L x sin (nπx/L) dx`  `= 2L/(nπ) (-1)^n`

Thus, for L x L, the Fourier series for f(x) = x on L x L is given by: "f(x)=_(n=1)[2L/(n)(-1)n sin(nx/L)]".

learn more about Fourier series from given link

https://brainly.com/question/30763814

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