Find the volume of the region bounded above by the paraboloid z=2x2+4y2 and below by the square R:−4≤x≤4,−4≤y≤4. V=___ (Simplify your answer.)

Answers

Answer 1

The volume of the given region is V = 682.6667

We are given a region bounded above by the paraboloid z = 2x² + 4y² and below by the square R:

-4 ≤ x ≤ 4, -4 ≤ y ≤ 4.

We need to find the volume of this region.

The given paraboloid is a rotational paraboloid in the z = 2x² direction.

So, we can integrate this region over the x-y plane and multiply by the height 2x² to get the volume.

V = ∫∫R 2x² dA

where R is the square -4 ≤ x ≤ 4, -4 ≤ y ≤ 4.

We can split the integral into two parts:

one over x and the other over y.

V = 2 ∫-4⁴ ∫-4⁴ 2x² dx dy

We can integrate over x first.

∫-4⁴ 2x² dx = [2x³/3]⁴_-4 = 256/3 - (-256/3) = 512/3

Substituting this in the integral expression of volume,

we get:

V = 2 ∫-4⁴ 512/3 dyV = 2 × 512/3 × 8 = 682.6667

(rounded to four decimal places)Therefore, the volume of the given region is V = 682.6667.

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Related Questions

Find the total differential of z=f(x,y), where f(x,y)=ln((y/x​)5) Use * for multiplication of variables, for example, enter x∗y∗dx instead of xydx. dz=___

Answers

the total differential of z = f(x, y) is dz = (-5/x)dx + (5/y)dy.

To find the total differential of z = f(x, y), we need to find the partial derivatives ∂f/∂x and ∂f/∂y and then apply the total differential formula:

dz = (∂f/∂x)dx + (∂f/∂y)dy

Given f(x, y) = ln((y/x)^5), we can find the partial derivatives as follows:

∂f/∂x = (∂/∂x)ln((y/x)^5)

      = (∂/∂x)[5ln(y/x)]

      = 5(∂/∂x)(lny - lnx)

      = 5(∂/∂x)(lny) - 5(∂/∂x)(lnx)

      = -5/x

∂f/∂y = (∂/∂y)ln((y/x)^5)

      = (∂/∂y)[5ln(y/x)]

      = 5(∂/∂y)(lny - lnx)

      = 5(∂/∂y)(lny)

      = 5/y

Now, we can substitute these partial derivatives into the total differential formula:dz = (∂f/∂x)dx + (∂f/∂y)dy

  = (-5/x)dx + (5/y)dy

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3. Suppose g(t) = [0.5sinc²(0.5 t) cos(2 t)], where the sinc function is defined as (3.17) on p. 100 of the textbook. (a) Apply Parseval's Theorem to determine the 95% energy bandwidth (B) of this signal, where we define the 95% energy bandwidth as:
(b) Gf²df = 0.95Eg. What is the 95% energy bandwidth of g(2t) in terms of the value of B determined in Part a. Please provide full justification for your answer.

Answers

To determine the 95% energy bandwidth (B) of the signal g(t) = [0.5sinc²(0.5 t) cos(2 t)], we can apply Parseval's Theorem. Parseval's Theorem states that the total energy of a signal in the time domain is equal to the total energy of the signal in the frequency domain. Mathematically, it can be expressed as:

∫ |g(t)|² dt = ∫ |G(f)|² df

In this case, we want to find the frequency range within which 95% of the energy of the signal is concentrated. So we can rewrite the equation as: 0.95 * ∫ |g(t)|² dt = ∫ |G(f)|² df

Now, we need to evaluate the integral on both sides of the equation. Since the given signal is in the form of a product of two functions, we can separate the terms and evaluate them individually. By applying the Fourier transform properties and integrating, we can find the value of B.

For part (b), when we consider g(2t), the time domain signal is compressed by a factor of 2. This compression results in a corresponding expansion in the frequency domain. Therefore, the 95% energy bandwidth of g(2t) will be twice the value of B determined in part (a). This can be justified by considering the relationship between time and frequency domains in Fourier analysis, where time compression corresponds to frequency expansion and vice versa.

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Find the general term of the quadratic sequence given below: 3,4,9,18,31,48,…

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The general term of the quadratic sequence is given by the formula T(n) = an^2 + bn + c.

In a quadratic sequence, the difference between consecutive terms is not constant but follows a pattern. To find the general term of the quadratic sequence 3, 4, 9, 18, 31, 48, we need to determine the coefficients a, b, and c in the general term formula.

We can start by examining the differences between consecutive terms:

1st difference: 4 - 3 = 1

2nd difference: 9 - 4 = 5

3rd difference: 18 - 9 = 9

4th difference: 31 - 18 = 13

5th difference: 48 - 31 = 17

From the second difference, we observe that they are all constant, which indicates a quadratic relationship. The constant difference suggests that the coefficient of the n^2 term in the general term formula is 1/2 times the second difference. In this case, the coefficient of the n^2 term is (1/2) × 5 = 5/2.

To find the other coefficients, we substitute the first term (T(1) = 3) into the general term formula:

3 = a(1)^2 + b(1) + c

This simplifies to: a + b + c = 3.

We have two unknown coefficients (a and b) and one equation. To determine these coefficients, we need another equation. Substituting the second term (T(2) = 4) into the general term formula, we get:

4 = a(2)^2 + b(2) + c

This simplifies to: 4a + 2b + c = 4.

Now we have a system of two equations:

a + b + c = 3   (Equation 1)

4a + 2b + c = 4  (Equation 2)

Solving this system of equations will give us the values of a, b, and c, which we can substitute back into the general term formula to obtain the final answer.

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The function f(x)= 10/1+9x2 is represented as a power series
f(x)= [infinity]∑n cnxn
Find the first few coefficients in the power series.
c0=
c1=
c2=
c3=
c4=
Find the radius of convergence R of the series.
R=

Answers

The first few coefficients in the power series are c0 = 10, c1 = 0, c2 = -90, c3 = 0, and c4 = 810. The radius of convergence R of the series is 1/3.

To find the power series representation of f(x), we can rewrite it as a geometric series:

f(x) = 10/(1 + 9x^2)

= 10(1 - 9x^2 + 81x^4 - 729x^6 + ...)

In the power series representation, the coefficient cn is given by the n-th derivative of f(x) evaluated at x = 0, divided by n (the factorial of n). Let's find the first few coefficients:

c0: Since the 0-th derivative of f(x) is simply f(x) itself, we have c0 = f(0) = 10.

c1: The 1st derivative of f(x) is obtained by differentiating f(x) with respect to x:

f'(x) = -180x/(1 + 9x^2)^2

c1 = f'(0) = 0.

c2: The 2nd derivative of f(x) is:

f''(x) = 360(1 - 27x^2)/(1 + 9x^2)^3

c2 = f''(0) = -90.

Similarly, we can find c3 = 0 and c4 = 810.

The radius of convergence R can be determined by considering the domain of convergence of the function. In this case, the function f(x) is defined for all real numbers except when the denominator (1 + 9x^2) equals zero. Solving 1 + 9x^2 = 0 gives x = ±1/3. The radius of convergence is therefore R = 1/3.

In conclusion, the first few coefficients in the power series representation of f(x) = 10/(1 + 9x^2) are c0 = 10, c1 = 0, c2 = -90, c3 = 0, and c4 = 810. The radius of convergence of the series is R = 1/3.

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Consider the function g(x) = x^2 − 3x + 3.
(a) Find the derivative of g:
g'(x) = ______
(b) Find the value of the derivative at x = (-3)
g’(-3)= _____
(c) Find the equation for the line tangent to g at x = -3 in slope-intercept form (y = mx + b):
y = _______

Answers

(a) The derivative of the function g(x) is given as [tex]g'(x) = d/dx(x² − 3x + 3)\\= 2x - 3[/tex]

(b) Find the value of the derivative at x = (-3)We need to substitute

x = -3 in the above obtained derivative,

[tex]g'(x) = 2x - 3 g’(-3)[/tex]

[tex]= 2(-3) - 3[/tex]

= -9

(c) Find the equation for the line tangent to g at x = -3 in slope-intercept form

(y = mx + b) We know that the equation of tangent at a given point

'x=a' is given asy - f(a)

=[tex]f'(a)(x - a)[/tex]We need to substitute the values and simplify the obtained equation to the slope-intercept form

(y = mx + b) Here, the given point is

x = -3 Therefore, the slope of the tangent will be the value of the derivative at

x = -3 i.e. slope

(m) = g'(-3)

= -9 Also, y-intercept can be found by substituting the value of x and y in the original equation

[tex]y = x² − 3x + 3[/tex]

[tex]= > y = (-3)² − 3(-3) + 3[/tex]

= 21

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(1 ÷ 2 3 ⁄ 4 ) + (1 ÷ 3 1 ⁄ 2 ) = _____.

Answers

Answer:

50/77

Step-by-step explanation:

(1÷2 3/4)+(1÷3 1/2)

2 3/4 is same as 11/44

1/2 is same as 7/2

so to divide fraction you have to flip the second number and multiply

so 1 times 4/11=4/11

and 1 times 2/7=2/7

4/11 +2/7=28/77+22/77=50/77

In-class Activity 1 1. Consider the analog signal \[ x_{a}(t)=3 \cos 2000 \pi t+5 \sin 6000 \pi t+10 \cos 12000 \pi t \] (a) What is the Nyquist rate for this signal? (b) Assume now that we sample thi

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(a) The Nyquist rate for the signal x_a(t) is 24000 samples/second.

(b) If we sample this signal at a rate of 24000 samples/second, then we will be able to reconstruct the original signal without aliasing.

The Nyquist rate is the minimum sampling rate that is required to prevent aliasing. Aliasing is a phenomenon that occurs when a signal is sampled at a rate that is too low. This can cause high-frequency components of the signal to be folded into the low-frequency spectrum, which can distort the signal.

The Nyquist rate for a signal is equal to twice the highest frequency component of the signal. In this case, the highest frequency component of the signal is 12000 radians/second. Therefore, the Nyquist rate is 24000 samples/second.

If we sample this signal at a rate of 24000 samples/second, then we will be able to reconstruct the original signal without aliasing. This is because the sampling rate is high enough to capture all of the frequency components of the signal. The Nyquist rate is a fundamental concept in signal processing. It is important to understand the Nyquist rate in order to avoid aliasing when sampling signals.

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2.29. The following are the impulse responses of continuous-time LTI systems. Determine whether each system is causal and/or stable. Justify your answers. (a) h(t)= e-u(t - 2) (b) h(t) = e-u(3-t) (c) h(t)= e-2¹u(t + 50) (d) h(t)= e2u(-1-t)

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(a) The system is causal and stable.

(b) The system is causal and stable.

(c) The system is causal and unstable.

(d) The system is causal and stable.

(a) The impulse response is given by h(t) = e^(-u(t - 2)). Here, u(t) is the unit step function which is 1 for t ≥ 0 and 0 for t < 0. The system is causal because the impulse response is nonzero only for t ≥ 2, which means the output at any time t depends only on the input at or before time t. The system is also stable since the exponential term decays as t increases, ensuring bounded output for bounded input.

(b) The impulse response is given by h(t) = e^(-u(3 - t)). The system is causal because the impulse response is nonzero only for t ≤ 3, which means the output at any time t depends only on the input at or before time t. The system is also stable since the exponential term decays as t increases, ensuring bounded output for bounded input.

(c) The impulse response is given by h(t) = e^(-2¹u(t + 50)). The system is causal because the impulse response is nonzero only for t ≥ -50, which means the output at any time t depends only on the input at or before time t. However, the system is unstable because the exponential term grows as t increases, leading to unbounded output even for bounded input.

(d) The impulse response is given by h(t) = e^(2u(-1 - t)). The system is causal because the impulse response is nonzero only for t ≥ -1, which means the output at any time t depends only on the input at or before time t. The system is also stable since the exponential term decays as t increases, ensuring bounded output for bounded input.

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Is it true that limx→−[infinity]​ exsin(x)= limx→−[infinity]​ ex limx→−[infinity]​sin(x)?

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No, it is not true that limx→−∞​ exsin(x) = limx→−∞​ ex limx→−∞​sin(x).In fact, the statement is indeterminate because both the limits on the left and right sides of the equation are of the form "∞ × 0".

The value of the limit depends on the behavior of the individual functions as x approaches negative infinity.To determine the actual value of the limit, we need to evaluate each term separately. The limit of ex as x approaches negative infinity is 0, as the exponential function decays to zero as x becomes increasingly negative.

However, the limit of sin(x) as x approaches negative infinity does not exist because the sine function oscillates between -1 and 1 infinitely. Therefore, the product of these two limits is not well-defined.In conclusion, the statement that limx→−∞​ exsin(x) = limx→−∞​ ex limx→−∞​sin(x) is not true due to the indeterminate form and the distinct behavior of the exponential and sine functions as x approaches negative infinity.

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Find the curl of F = y^3z^3 i + 2xyz^3 j + 3xy^2z^2 k at (−2,1,0).

Answers

At the point (-2, 1, 0), the curl of F is 12(1)^2(0)^2 i + 6(1)^2(0) j, which simplifies to 0i + 0j, or simply 0.

To find the curl of a vector field, we need to compute the determinant of the Jacobian matrix. Let's denote the vector field as F = y^3z^3 i + 2xyz^3 j + 3xy^2z^2 k. The curl of F is given by the following formula:

curl(F) = (dF_z/dy - dF_y/dz) i + (dF_x/dz - dF_z/dx) j + (dF_y/dx - dF_x/dy) k

Evaluating the partial derivatives:

dF_x/dy = 3y^2z^3

dF_y/dz = 6xyz^2

dF_z/dx = 2yz^3

dF_x/dz = 0

dF_z/dy = 9y^2z^2

dF_y/dx = 0

Plugging these values into the curl formula and substituting (-2, 1, 0) for x, y, and z, we get:

curl(F) = 12y^2z^2 i + 6y^2z j

Therefore, at the point (-2, 1, 0), the curl of F is 12(1)^2(0)^2 i + 6(1)^2(0) j, which simplifies to 0i + 0j, or simply 0.

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Let R be the region bounded by y=x2,x=1, and y=0. Use the shell method to find the volume of the solid generated when R is revolved about the line y=−9. Set up the integral that gives the volume of the solid using the shell method. Use increasing limits of integration. Select the correct choice below and fill in the answer boxes to complete your choice. (Type exact answers.) A. ∫dy B. ∫ dx

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Therefore, the integral that gives the volume of the solid using the shell method is: A. ∫(2π(x+9))dy, integrated from y = 0 to y = 1.

To find the volume of the solid generated when region R is revolved about the line y = -9 using the shell method, we set up the integral as follows:

Since we are using the shell method, we integrate with respect to the variable y.

The limits of integration for y are from 0 to 1, which represent the bounds of region R along the y-axis.

The radius of each shell is the distance from the line y = -9 to the curve [tex]y = x^2[/tex]. This distance is given by (x + 9), where x represents the x-coordinate of the corresponding point on the curve.

The height of each shell is the differential element dy.

Therefore, the integral that gives the volume of the solid using the shell method is:

A. ∫(2π(x+9))dy, integrated from y = 0 to y = 1.

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6. (1 point) Find all the points in the complex plane such
|z+1|<|1-z|.

Answers

We are given that |z + 1| < |1 - z|, where z is a complex number. We need to find all the points in the complex plane that satisfy this inequality.

To do this, let's first simplify the given inequality by squaring both sides:|z + 1|² < |1 - z|²(z + 1)·(z + 1) < (1 - z)·(1 - z)*Squaring both sides has the effect of removing the absolute value bars. Now, expanding both sides of this inequality and simplifying, we get:z² + 2z + 1 < 1 - 2z + z²3z < 0z < 0So we have found that for the inequality |z + 1| < |1 - z| to be true, the value of z must be less than zero. This means that all the points that satisfy this inequality lie to the left of the origin in the complex plane

The inequality is given by |z + 1| < |1 - z|.Squaring both sides, we get:(z + 1)² < (1 - z)²Expanding both sides, we get:z² + 2z + 1 < 1 - 2z + z²3z < 0z < 0Therefore, all the points in the complex plane that satisfy this inequality lie to the left of the origin.

In summary, the points that satisfy the inequality |z + 1| < |1 - z| are those that lie to the left of the origin in the complex plane.

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Present a second order differential equation.
Identify the corresponding auxiliary equation.
Classify its roots.
Find the associated fundamental set of solutions.
State the general solution.
Example:
DE: y"+2y'+5y =0
AE: m^2+2m+5=0
Roots: -1+2i, -1-2i complex conjugate
FSS: {e ^-x cos2x, e^-x sin2x}
GS: y = e^-x(c_1cos2x+c_2sin2x)
Make your own equation and provide its DE, AE, Roots, FSS, and GS.

Answers

The general solution of the given differential equation is:y = (c₁ + c₂x) e⁻ˣ where c₁ and c₂ are arbitrary constants.

Given differential equation is:

y'' + 2y' + y = 0

To find the roots, we need to obtain the auxiliary equation.

Auxiliary equation:

m² + 2m + 1 = 0

On solving the equation we get,

m = -1, -1

Therefore, the roots are real and equal.As the roots are equal, there is only one fundamental set of solutions.

Fundamental set of solution:

y₁ = e⁻ˣ

y₂ = x.e⁻ˣ

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Use the table of integrals to find ∫ x^2/√(7−25x2^) dx

Answers

Using the table of integrals, the integral ∫ x^2/√(7-25x^2) dx can be evaluated as (1/50) arc sin(5x/√7) + (x√(7-25x^2))/50 + C, where C is the constant of integration.

To evaluate the integral ∫ x^2/√(7-25x^2) dx, we can refer to the table of integrals. The given integral falls under the form ∫ x^2/√(a^2-x^2) dx, which can be expressed in terms of inverse trigonometric functions.

Using the table of integrals, the result can be written as:

(1/2a^2) arcsin(x/a) + (x√(a^2-x^2))/(2a^2) + C,

where C is the constant of integration.

In our case, a = √7/5.

Substituting the values into the formula, we have:

(1/(2(√7/5)^2)) arcsin(x/(√7/5)) + (x√((√7/5)^2-x^2))/(2(√7/5)^2) + C.

Simplifying, we get:

(1/50) arcsin(5x/√7) + (x√(7-25x^2))/50 + C.

Therefore, the integral of x^2/√(7-25x^2) dx is given by (1/50) arcsin(5x/√7) + (x√(7-25x^2))/50 + C, where C is the constant of integration.

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one degree of latitude is equal to how many minutes

Answers

Answer:

60 minutes

Step-by-step explanation:

Latitude and longitude are measuring lines used for locating places on the surface of the Earth. They are angular measurements, expressed as degrees of a circle. A full circle contains 360°. Each degree can be divided into 60 minutes, and each minute is divided into 60 seconds.

One degree of latitude is equal to approximately 60 nautical miles or 69 statute miles. Since a minute of latitude is one-sixtieth of a degree, it follows that one degree of latitude is equal to 60 minutes.

This means that there are 60 nautical miles or 69 statute miles between two points that differ by one minute of latitude.

The minute of latitude is a widely used unit for measuring distances on Earth, particularly in navigation and aviation. It allows for precise calculations and is crucial for determining positions accurately. Understanding the relationship between degrees of latitude and minutes helps in determining distances, estimating travel times, and ensuring accurate navigation across the globe.

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Select the correct answer.
What is the range of this function?
2r
TT
y
2-
-2-
-3-
TO
211
-X

Answers

The range of the function graphed in this problem is given as follows:

All real values.

How to obtain the domain and range of a function?

The domain of a function is obtained as the set containing all the values assumed by the independent variable x of the function, which are also all the input values assumed by the function.The range of a function is obtained as the set containing all the values assumed by the dependent variable y of the function, which are also all the output values assumed by the function.

From the graph of the function given in this problem, y assumes all real values, which represent the range of the function.

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Find the even and odd components of the functions: 1. \( x(t)=e^{-a t} u(t) \) 2. \( x(t)=e^{j t} \)

Answers

Thus, the even and odd components of [tex]\(x(t)=e^{jt}\) are \(\cos t\) and \(j\sin t\),[/tex] respectively.

Given:

x(t)=[tex]e^{-at}u(t)\qquad (1)\\ x(t)&=e^{jt}\qquad (2)\end{align}[/tex]

To find: Even and Odd components of above two functions.

Solution:

[tex](1) \(x(t)=e^{-at}u(t)\)[/tex]

Here,

[tex]\begin\[u(t) = {cases} 0\quad t < 0\\ 1\quad t\geq 0\end{cases}\]So, the given function can be written as\[x(t)=e^{-at}[1(t)]\][/tex]

Using the property of even and odd functions, we have:

[tex]\[\text{Even component}=\frac{1}{2}[x(t)+x(-t)]\\ \Rightarrow \frac{1}{2}[e^{-at}+e^{at}]\\ \Rightarrow e^{-at}\cosh at\][/tex]

and

[tex]\[\text{Odd component}=\frac{1}{2}[x(t)-x(-t)]\\ \Rightarrow \frac{1}{2}[e^{-at}-e^{at}]\\ \Rightarrow -e^{-at}\sinh at\][/tex]

Thus, the even and odd components of

[tex]\(x(t)=e^{-at}u(t)\) are \(e^{-at}\cosh at\) and \(-e^{-at}\sinh at\), respectively.(2) \(x(t)=e^{jt}\)[/tex]

Here, to check if the function is even or odd, we have to find out

[tex]\(x(-t)\) \[x(-t)=e^{-jt}\][/tex]

Now,

[tex]\[\text{Even component}=\frac{1}{2}[x(t)+x(-t)]\\ \Rightarrow \frac{1}{2}[e^{jt}+e^{-jt}]\\ \Rightarrow \cos t\]and \[\text{Odd component}=\frac{1}{2}[x(t)-x(-t)]\\ \Rightarrow \frac{1}{2}[e^{jt}-e^{-jt}]\\ \Rightarrow j\sin t\][/tex]

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Given the vectors a = (1, 3, 4) and b = (4, 5, -4), which of the following represent a x b?
a) (8, -20,7)
b) (-32, 20, -7)
c) (4, 15, 16)
d) -3

Answers

Therefore, the correct answer is option A: (8, -20, 7). The cross-product of two vectors is a binary operation that produces a third vector.

The cross product of vectors a and b is represented by the symbol a x b.

To find the cross product of vectors a and b, the following formula can be used:

(axb)i = (a2b3 - a3b2)j - (a1b3 - a3b1)k + (a1b2 - a2b1)i

The vector a = (1, 3, 4) and the vector b = (4, 5, -4) are given.

Using the above formula, the cross product of vectors a and b is calculated as follows:

(axb)i = (a2b3 - a3b2)j - (a1b3 - a3b1)k + (a1b2 - a2b1)i(1x5 - 4x(-4))i - (1x(-4) - 4x4)j + (3x4 - 1x5)k5i + 17j + 7k

Therefore, a x b is represented by the vector (5, 17, 7).

Therefore, the correct answer is option A: (8, -20, 7). The cross-product of two vectors is a binary operation that produces a third vector.

The third vector is perpendicular to the first two vectors. We found the cross product of two vectors, a and b, to be (5, 17, 7). Therefore, the correct answer is option A.

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A tarmer wants your help to write a simple program for his animals. He has 5 types of animals in his farm (Cow, goat, horse, sheep and dogl. He has a data base that shows the number of animals in each

Answers

Farmer has 5 types of animals in his farm, including cows, goats, horses, sheep, and dogs. He has a database that indicates the number of animals in each category. This can be done using a Python dictionary.

Let us consider the Python code to determine the number of animals in each category.```
animal_dict = {"Cow": 10, "Goat": 20, "Horse": 8, "Sheep": 25, "Dog": 15}
print("Number of Cows in the Farm:", animal_dict["Cow"])
print("Number of Goats in the Farm:", animal_dict["Goat"])
print("Number of Horses in the Farm:", animal_dict["Horse"])
print("Number of Sheeps in the Farm:", animal_dict["Sheep"])
print("Number of Dogs in the Farm:", animal_dict["Dog"])```

In the code, `animal_dict` is the dictionary that contains the number of animals in each category. The `print` statement is used to display the number of animals in each category. The output for the above code will be:```
Number of Cows in the Farm: 10
Number of Goats in the Farm: 20
Number of Horses in the Farm: 8
Number of Sheeps in the Farm: 25
Number of Dogs in the Farm: 15```

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Analize the function w = (x,y,z) = x^2 - y^2 -z^2 - 2x + 2y - 2z -1.
1. A critical value for the function is attained in ( ?, ?, ?) the options for the 3 numbers are (-2,-1, 0, 1, 2)
2. The value is classfied as a (?) value. The options for the blank space are maximum, minimum and saddle point.

Answers

The critical value for the function is attained at (1, 1, −1).2. The value is classified as a saddle point.

Given function is w = (x,y,z) = x² − y² − z² − 2x + 2y − 2z − 1.1.

Critical points are points where ∇w = 0.

Here,∂w/∂x = 2x − 2∂w/∂y = −2y + 2∂w/∂z = −2z − 2

We will set each of the above expressions equal to zero to get the critical points.

2x - 2 = 0

⇒ x = 1y - 1 = 0

⇒ y = 1z + 1 = 0

⇒ z = -1

Therefore, the critical point is (1, 1, −1).2. The matrix of second partial derivatives is

∂²w/∂x²

= 2, ∂²w/∂y²

= −2, ∂²w/∂z²

= −2∂²w/∂x∂y

= −2, ∂²w/∂x∂z

= −2, ∂²w/∂y∂z = 0

Now, we can find the nature of the critical point using the determinant test.D = ∣∣∣∣∂²w/∂x²∂²w/∂x∂y∂²w/∂x∂z∂²w/∂y∂x∂²w/∂y²∂²w/∂y∂z∂²w/∂z∂x∂²w/∂z∂y∂²w/∂z²∣∣∣∣(1) = ∣∣∣∣2 −2 −2−2 0 0−2 0 −2∣∣∣∣ = −16

Since the determinant is negative and ∂²w/∂x² = 2 > 0, the critical point (1, 1, −1) is a saddle point.

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What is the shape function for the two nodes in an one-dimensional (1D) bar element (in Natural Coordinate System)? A) \( N_{1}=\frac{1-\xi}{2} ; N_{2}=\frac{1+\xi}{2} \) B) \( N_{1}=\frac{x-x_{2}}{L}

Answers

The shape function for the two nodes in a one-dimensional (1D) bar element in the Natural Coordinate System is:

\(N_{1}=\frac{1-\xi}{2}\) and \(N_{2}=\frac{1+\xi}{2}\).

What is the shape function? In FEA (Finite Element Analysis), a shape function is a function that maps the global coordinate system of an element to the natural coordinate system of that element.

The primary objective of a shape function is to evaluate the displacement field in an element.To describe a complex geometry with simple elements, the Finite Element Method uses an interpolation technique. It involves defining a function that represents the displacement variation over each element.

This function is known as the shape function. The two-noded 1D bar element has two shape functions for each node (N1 and N2).

These shape functions have the same value at the node points and are given by: \(N_{1}=\frac{1-\xi}{2}\) and \(N_{2}=\frac{1+\xi}{2}\) Where ξ is the natural coordinate (-1 ≤ ξ ≤ 1) and it is related to the global coordinate (x) through the following equation: \(x=N_{1}x_{1}+N_{2}x_{2}\)

Thus, the answer for this question is:\(N_{1}=\frac{1-\xi}{2}\) and \(N_{2}=\frac{1+\xi}{2}\).

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i. Let f, g and h be continuous functions such that their partial derivatives wi a(f, h) to u and v all exist.
Show that ∂(f-g, h)/მ(u,v) = ∂(f, h)/∂(u, v) - ∂(g, h)/∂(u, v)
ii. A curve C is represented by parametric equations
x(θ) = 2 sec θ
y(θ) = 2 + tan θ
Find the Cartesian (rectangular) equation of C

Answers

Answer:

To show that ∂(f-g, h)/∂(u,v) = ∂(f, h)/∂(u, v) - ∂(g, h)/∂(u, v), we can use the properties of partial derivatives and apply the quotient rule for differentiation.

Step-by-step explanation:

Let's break down the expression step by step:

∂(f-g, h)/∂(u,v) = (∂(f-g)/∂u * ∂h/∂v) - (∂(f-g)/∂v * ∂h/∂u)

Expanding the derivatives:

= (∂f/∂u - ∂g/∂u) * ∂h/∂v - (∂f/∂v - ∂g/∂v) * ∂h/∂u

Now, rearranging the terms:

= (∂f/∂u * ∂h/∂v - ∂f/∂v * ∂h/∂u) - (∂g/∂u * ∂h/∂v - ∂g/∂v * ∂h/∂u)

Using the definition of the partial derivative, this can be rewritten as:

= ∂(f, h)/∂(u, v) - ∂(g, h)/∂(u, v)

Hence, we have shown that ∂(f-g, h)/∂(u,v) = ∂(f, h)/∂(u, v) - ∂(g, h)/∂(u, v).

ii. The parametric equations given are:

x(θ) = 2 sec θ

y(θ) = 2 + tan θ

To find the Cartesian (rectangular) equation of the curve, we need to eliminate the parameter θ. We can do this by expressing θ in terms of x and y.

From the equation x(θ) = 2 sec θ, we can rewrite it as:

sec θ = x/2

Taking the reciprocal of both sides:

cos θ = 2/x

Using the identity [tex]cos^2\theta} = 1 - sin^2\theta}[/tex]:

1 -[tex]sin^2\theta} = 1 - 4/x^2[/tex]

Rearranging the terms:

[tex]sin^2\theta} = 1 - 4/x^2[/tex]

Taking the square root:

sin θ = ± [tex]\sqrt(1 - 4/x^2)[/tex]

From the equation y(θ) = 2 + tan θ, we can rewrite it as:

tan θ = y - 2

Now, we have the values of sin θ and tan θ in terms of x and y. We can use these to express sin θ as a function of x and y, and substitute it into the equation [tex]sin^2\theta} = 1 - 4/x^2[/tex]:

[tex](\sqrt(1 - 4/x^2))^2 = 1 - 4/x^2[/tex]

[tex]1 - 4/x^2 = 1 - 4/x^2[/tex]

This equation is always true, regardless of the values of x and y. Hence, we have:

sin θ = ± [tex]\sqrt(1 - 4/x^2)[/tex]

Now, substituting the expression for sin θ into the equation for tan θ, we have:

tan θ = y - 2

tan θ = y - 2

Therefore, the Cartesian equation of the curve is:

[tex]x^{2/4} - y^{2/4} + 1 = 0[/tex]

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5 peaches cost $3. 95. How much did each peach cost?

Answers

5 peaches cost $3. 95 then each peach costs $0.79. using unitary method we can easily find  each peach costs $0.79.

To find the cost of each peach, we divide the total cost of $3.95 by the number of peaches, which is 5. The resulting value, $0.79, represents the cost of each individual peach. Let's break down the calculation step by step:

1. The total cost of 5 peaches is given as $3.95.

2. To find the cost of each peach, we need to divide the total cost by the number of peaches.

3. Dividing $3.95 by 5 gives us $0.79.

4. Therefore, each peach costs $0.79.

In summary, by dividing the total cost of the peaches by the number of peaches, we determine that each peach costs $0.79.

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G(x)=tanx∫1​ et​/et+3dt 3. H(x)=∫t2+1​/x​lnx​t4+4dt

Answers

To find the derivatives of the given functions, we can use the fundamental theorem of calculus and apply the chain rule where necessary.

Let's start with the function G(x):

G(x) = tan(x) ∫[1, e^x/(e^x + 3)] e^t/(e^t + 3) dt

To find the derivative of G(x) with respect to x, we need to differentiate both the tangent function and the integral part separately.

Differentiating the tangent function:

d/dx(tan(x)) = sec^2(x)

Differentiating the integral part:

Let's define a new function F(t) = ∫[1, e^t/(e^t + 3)] e^t/(e^t + 3) dt

We can rewrite G(x) as G(x) = tan(x) * F(x)

To find the derivative of F(x), we'll use the Leibniz integral rule:

d/dx ∫[a(x), b(x)] g(x, t) dt = ∫[a(x), b(x)] ∂g(x, t)/∂x dt + g(x, b(x)) * db(x)/dx - g(x, a(x)) * da(x)/dx

In this case, a(x) = 1,

b(x) = e^x/(e^x + 3), and

g(x, t) = e^t/(e^t + 3).

Let's calculate the partial derivatives:

∂g(x, t)/∂x = (∂/∂x)(e^t/(e^t + 3))

= (e^t * (e^x + 3) - e^t * e^x) / (e^t + 3)^2

= (e^t * (e^x + 3 - e^x)) / (e^t + 3)^2

= 3e^t / (e^t + 3)^2

da(x)/dx = 0 (since a(x) is a constant)

db(x)/dx = (d/dx)(e^x/(e^x + 3))

= (e^x * (e^x + 3) - e^x * e^x) / (e^x + 3)^2

= 3e^x / (e^x + 3)^2

Now we can apply the Leibniz integral rule:

d/dx F(x) = ∫[1, e^x/(e^x + 3)] (3e^t / (e^t + 3)^2) dt + e^x/(e^x + 3) * (3e^x / (e^x + 3)^2) - 1 * 0

= ∫[1, e^x/(e^x + 3)] (3e^t / (e^t + 3)^2) dt + (3e^x / (e^x + 3))

Finally, we can find the derivative of G(x):

d/dx G(x) = tan(x) * d/dx F(x) + sec^2(x) * F(x)

= tan(x) * (∫[1, e^x/(e^x + 3)] (3e^t / (e^t + 3)^2) dt + (3e^x / (e^x + 3))) + sec^2(x) * F(x)

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The derivative of the given functions, we can use the fundamental theorem of calculus and apply the chain rule where necessary is d/dx(H(x)) = -x^-2 * ln (x^4 + 3) + (16/5) - (4/x) * (x^4 + 1)/(5x).

G(x)=tan x ∫et/(et + 3)dt3.

H(x) = ∫t2+1/xlnxt4+4dt

We need to find the derivative of G(x) and H(x).

1. Derivative of G(x)

The derivative of G(x) is given as

d/dx(G(x)) = d/dx(tan x) ∫et/(et + 3)dt + tan x d/dx(∫et/(et + 3)dt)

Here, we know that

d/dx(tan x) = sec²x

d/dx(∫et/(et + 3)dt) = et/(et+3)

Now, using chain rule, we get

d/dx(G(x)) = sec²x * et/(et+3) + tan x * et/(et+3) * d/dx(et/(et+3))= et/(et+3) * (sec²x + tan²x)

Therefore,

d/dx(G(x)) = et/(et+3) sec² x

2. Derivative of H(x)The derivative of H(x) is given as

d/dx(H(x)) = d/dx(∫t2+1/xlnxt4+4dt)

Using the second part of the Fundamental Theorem of Calculus, we have

∫a(x) to b(x) f(t)dt = F[b(x)] d/dx b(x) - F[a(x)] d/dx a(x)

Hence,

d/dx(H(x)) = d/dx(x^-1 * F[t2+1/x] to [t4+4] of ln t dt)d/dx(H(x))

= -x^-2 * F[t2+1/x] to [t4+4] of ln t dt + F[t2+1/x] to [t4+4] of (1/t) (4t³/x) dt

Now, simplifying this equation, we get

d/dx(H(x)) = -x^-2 * ∫t2+1/x to t4+4 ln t dt + 4/x * ∫t2+1/x to t4+4 t² dt

Hence,

d/dx(H(x)) = -x^-2 * ∫t2+1/x to t4+4 ln t dt + 4/x [t⁵/5] from t2+1/x to t4+4

d/dx(H(x)) = -x^-2 * ln (x^4 + 3) + (4/x) * [(4^5/5) - (x^5+1/5x)]

Therefore,

d/dx(H(x)) = -x^-2 * ln (x^4 + 3) + (16/5) - (4/x) * (x^4 + 1)/(5x)

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If the equation x2ey+z−6cos(x−6z)=π2e+6 defines z implicitly as a differentiable function of x and y, then find the value of ∂x∂z​ at (π,1,0).

Answers

the value of ∂x/∂z at (π, 1, 0) is (2π/e) + (6/e).Thus, the required solution is obtained. If the equation x2ey+z−6cos(x−6z)=π2e+6 defines z implicitly as a differentiable function of x and y.

Given equation is: x2ey+z−6cos(x−6z)=π2e+6

To find ∂x/∂z at (π, 1, 0)Let F(x, y, z) = x2ey+z−6cos(x−6z)And G(x, y) = π2e+6Then, the given equation can be written as, F(x, y, z) = G(x, y)Differentiating both sides w.r.t x, we get, ∂F/∂x + ∂F/∂z . ∂z/∂x = ∂G/∂x

Differentiating both sides w.r.t z, we get,

∂F/∂x . ∂x/∂z + ∂F/∂z = 0

On substituting the given values, we get, x = π, y = 1 and z = 0 and G(x, y) = π2e+6

Hence, ∂F/∂x

= 2πe + 6sin(6z − x)∂F/∂z

= ey + 6sin(6z − x)∂G/∂x

= 0∂G/∂y = 0∂z/∂x

= − (∂F/∂x)/ (∂F/∂z)

=− [2πe + 6sin(6z − x)]/[ey + 6sin(6z − x)]

Putting the values of x = π, y = 1, and z = 0, we get∂z/∂x = − [2πe + 6sin(−π)]/[e] = (2π + 6)/e = (2π/ e) + (6/e)

Hence, the value of ∂x/∂z at (π, 1, 0) is (2π/e) + (6/e).Thus, the required solution is obtained.

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Let X[k], k = 0, ..., M-1 be the DFT of M points of a real sequence x[n]. If we know the DFT value for a certain index k (0 < k < M-1), for what other index k2 ( 0< k2< M-1) can we determine the DFT value? What is the value of the DFT for k2?

Answers

If we know the DFT value for a certain index k (0 < k < M-1) of a real sequence x[n], we can determine the DFT value for another index k2 (0 < k2 < M-1) if k2 is related to k through complex conjugation. In other words, if k2 is the conjugate of k, then we can determine the DFT value for k2.

For a real sequence, the DFT values follow a symmetry property. If X[k] is the DFT value at index k, then X[M - k] is the DFT value at index k2, where k2 = M - k. The value of the DFT for k2 would be the complex conjugate of the DFT value for k, denoted as X[M - k] = X[k]*. The asterisk (*) represents complex conjugation.

In summary, if we know the DFT value for a certain index k in a real sequence, we can determine the DFT value for the index k2 = M - k, and the value of the DFT for k2 would be the complex conjugate of the DFT value for k.

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Find the absolute value of |9-2i|

Answers

The absolute value of the expression |9 - 2i| is 9 - 2i

Finding the absolute value of |9-2i|

From the question, we have the following parameters that can be used in our computation:

|9-2i|

Express properly

So, we have

|9 - 2i|

Remove the absolute bracket

So, we have

9 - 2i

Hence, the absolute value of |9-2i| is 9 - 2i

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Compute the inverse Laplace transforms of the following: 5. \( F_{1}(s)=\frac{1}{s^{2}(s+1)} \) 6. \( F_{2}(s)=\frac{39}{(s+2)^{2}\left(s^{2}+4 s+13\right)} \) 7. \( F_{3}(s)=\frac{3 e^{-s}}{s(s+3)} \

Answers

The inverse Laplace transforms of the given functions are as follows: 5. \( F_{1}(s)=\frac{1}{s^{2}(s+1)} \) has the inverse Laplace transform \( f_{1}(t) = t - e^{-t} \). 6. \( F_{2}(s)=\frac{39}{(s+2)^{2}\left(s^{2}+4 s+13\right)} \) has the inverse Laplace transform \( f_{2}(t) = \frac{13}{\sqrt{11}} e^{-2t} \sin(\sqrt{11}t) \). 7. \( F_{3}(s)=\frac{3 e^{-s}}{s(s+3)} \) has the inverse Laplace transform \( f_{3}(t) = 3(1 - e^{-3t}) \).

5. To find the inverse Laplace transform of \( F_{1}(s)=\frac{1}{s^{2}(s+1)} \), we observe that the given function can be expressed as the sum of partial fractions: \( F_{1}(s) = \frac{A}{s} + \frac{B}{s^2} + \frac{C}{s+1} \). Solving for A, B, and C, we obtain A = 1, B = -1, and C = -1. Taking the inverse Laplace transform of each term, we get \( f_{1}(t) = t - e^{-t} \).

6. For \( F_{2}(s)=\frac{39}{(s+2)^{2}\left(s^{2}+4 s+13\right)} \), we can rewrite it as a sum of partial fractions: \( F_{2}(s) = \frac{A}{s+2} + \frac{B}{(s+2)^2} + \frac{Cs+D}{s^2+4s+13} \). Solving for A, B, C, and D, we find A = -\frac{13}{\sqrt{11}}, B = \frac{26}{\sqrt{11}}, C = \frac{3}{\sqrt{11}}, and D = 0. Taking the inverse Laplace transform, we get \( f_{2}(t) = \frac{13}{\sqrt{11}} e^{-2t} \sin(\sqrt{11}t) \).

7. Finally, for \( F_{3}(s)=\frac{3 e^{-s}}{s(s+3)} \), we can simplify it as \( F_{3}(s) = \frac{A}{s} + \frac{B}{s+3} \), where A = 3 and B = -3. Taking the inverse Laplace transform, we obtain \( f_{3}(t) = 3(1 - e^{-3t}) \).

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Find the derivative of:
(i) y = logx / 1+logx
(ii) f = e^xtanx

Answers

The derivative of (i) y = logx / 1+logx is 1/(1+logx)^2, and the derivative of (ii) f = e^xtanx is e^xtanx(1+logx)*. (i) y = logx / 1+logx can be written as y = logx * (1/1+logx). The derivative of logx is 1/x, and the derivative of 1/1+logx is -1/(1+logx)^2. Therefore, the derivative of y is: y' = (1/x) * (-1/(1+logx)^2) = -1/(x(1+logx)^2)

(ii) f = e^xtanx can be written as f = e^x * tanx. The derivative of e^x is e^x, and the derivative of tanx is sec^2x. Therefore, the derivative of f is : f' = e^x * sec^2x = e^xtanx*(1+logx)

The derivative of a function is a measure of how the function changes when its input is changed by a small amount. In these cases, the derivatives of the functions y and f are calculated using the product rule and the chain rule.

The product rule states that the derivative of a product of two functions is the sum of the products of the derivatives of the two functions. The chain rule states that the derivative of a composite function is equal to the product of the derivative of the outer function and the derivative of the inner function.

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If
g(x)=ln(16−x / 2x+)
(a) (1 mark) What is the domain of g(x) ?
(b) (1 mark) Verify (with a sketch and/or short argument) that g is a one-to-one function.
(c) (1 mark) Find a formula for the inverse function: that is, find g−1(x).
(d) (1 bonus mark) Find the range of g.

Answers

(a) The domain of g(x) is the set of all real numbers except x = 8 and x = 0. (b) To verify that g(x) is a one-to-one function, we can show that it is either strictly increasing or strictly decreasing. (c) The inverse function g^(-1)(x) can be found by interchanging x and y in the equation and solving for y. (d) The range of g(x) is the set of all real numbers.

(a) The domain of g(x) is the set of all real numbers except those values of x that make the denominator zero. In this case, the denominator is 2x + 16 - x, which is zero when x = 8. Additionally, the natural logarithm function requires a positive argument, so 16 - x / 2x + 8 must be greater than zero. Solving this inequality gives x < 8. Therefore, the domain of g(x) is (-∞, 0) U (0, 8) U (8, +∞).

(b) To show that g(x) is a one-to-one function, we can examine its derivative. Taking the derivative of g(x) with respect to x, we have g'(x) = -2 / (2x + 16 - x)^2. Since the denominator is always positive, the sign of g'(x) depends on the numerator. The numerator, -2, is negative, so g'(x) is always negative. This means that g(x) is strictly decreasing, and therefore, it is a one-to-one function.

(c) To find the inverse function g^(-1)(x), we interchange x and y in the equation and solve for y. The equation becomes x = ln(16 - y) / (2y + 8). Now we can solve this equation for y. Multiplying both sides by (2y + 8) and rearranging the terms, we get (2y + 8) * x = ln(16 - y). Applying the properties of logarithms, we have e^[(2y + 8) * x] = 16 - y. Solving for y, we find y = (16 - e^[(2x + 8) * x]) / (2x + 8). Therefore, the inverse function g^(-1)(x) is given by this formula.

(d) The range of g(x) is the set of all real numbers that g(x) can attain. Since the natural logarithm function is defined for positive real numbers, the range of g(x) is (-∞, +∞).

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Two stars of the same size where one star has a high surface brightness (A) and the other has a low surface brightness (B). Q12. Of the scenarios above, which graph should have the longest troughs in the light curve? Which should have the greatest difference in the depth of the two dips? Why? true or falseRecursive function calls can occur for as long as necessary to solve a problem. Why is the loating effect. effect not much of a problem between the two stages of an instrumentation amplifier? What are the Common-mode and differential-mode voorge of the input stage of an instrumentation amp- lifier? Why is the stated set of results. important? Explain. An insured is entitled to coverage under a policy that a prudent person would expect it to provide. This principle is calledAdhesionReasonable sensibilityReasonable expectationsInsurable interest Let F be a differentiable function and assume that F(x_o, y_o, z_o) = 0. Which of the following implies that the tangent plane to the surface F(x, y, z) = 0 at (x_o, y_o, z_o) is vertical?o F(x_o, y_o, z_o) is a scalar multiple of (0, 0, 1).o The z component of VF(x_o, y_o, z_o) vanishes.o Neither. What are the advantages of storing and managing company datawith a relational database management system (RDMS)? According to the World Bank, Albania does one of the worst jobs as a country enforcing the rule of law. The consequence of a weak rule of law is different isotopes of an element contain the same number of There are a number of issues surrounding the general area of quality in project management. Poor quality management can place a permanent stain on any project.Discuss SIX strategies to keep project Design a bandreject RLC circuit/filter that cuts off 500hzsignals.Calculate gain at 100hz, 500hz, and 900hz. what would the temperature be in 2020 if humans had not contributed to climate change? pls answer quick The next question deals with the December 31,2019 Balance Sheet of Horan Industries. Horan began 2019 with the following non-current asset balances: Plant and equipment (net) $185,000; Patents S27,000. No long-term assets were purchased or sold during the year. How much amortization and depreciation expense did Horan record during 2019 ? $10,000$11,000$12,000 It cannot be determined with the information given. 21. Quogue Sporting Goods purchased a new screen-printing machine for $50,000. It cost $1,000 to deliver the machine and $5,000 to install it. The machine has a useful life of 8 years and an estimated salvage value of S8,000. What would the depreciation be for the first year using the double declining method? $6,000$7,000$12,000$14,000 2. On December 1,2019 Zingo Inc. made a $100,000 payment to Big Boy Banking. The payment was for a $90,000 loan that Zingo received from Big Boy, 6 months ago. Which option below best represents the recording of this transaction for Zingo? Debit cash $100,000; credit notes payable $100,000 Debit interest expense $10,000; debit notes payable $90,000; credit cash $100,000 Debit notes payable $100,000; credit cash $100,000 Debit interest expense $10,000; debit notes payable $100,000; credit cash $90,000 3. The December 31, 2019 Income Statement of Jackson Industries is shown below. Jackson began 2019 with a taxes payable account balance of $5 million. During the year, it made a cash payment of $3 million to the tax authorities. On December 31,2019 , what is its taxes payable account balance? \$2 million S8 million S9 million \$12 million Implement the following classes based on the UML classesdiagrams: Book LibraryPlease in #### Java #### Part2 and Part3