select the correct answer.becky wants to make a sculpture in the shape of a rectangular prism for the science fair. the sculpture will be made of cubic foot of clay and will have a base area of square foot. how tall will the sculpture be? a. foot b. foot c. foot d. foot e. foot

The roots of the quadratic equation is real.

We know from the discriminant method that

If D >0 then equation have real and distinct roots.

If D =0 then equation have two equal roots.

If D<0 then equation have imaginary roots.

Here, D = 625 > 0

Then the equation two distinct real roots.

Thus, the roots of the quadratic equation is real.

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(a) f(x) is increasing on the interval (-3, 2) and decreasing on the intervals (-∞, -3) and (2, ∞).

(b) The local maximum value of f(x) is 81 at x = -3 and the local minimum value of f(x) is -64 at x = 2.

(c) The interval of concavity is (-∞, -1/2) for concave down and (-1/2, ∞) for concave up, and the inflection point is (-1/2, f(-1/2)) = (-1/2, -27).

(a) To find the intervals on which f(x) is increasing or decreasing, we need to find the first derivative of f(x) and determine where it is positive or negative.

f'(x) = 6x^2 + 6x - 36 = 6(x^2 + x - 6) = 6(x + 3)(x - 2)

The critical points of f(x) occur at x = -3 and x = 2.

If x < -3, then f'(x) < 0, so f(x) is decreasing on (-∞, -3).

If -3 < x < 2, then f'(x) > 0, so f(x) is increasing on (-3, 2).

If x > 2, then f'(x) < 0, so f(x) is decreasing on (2, ∞).

Therefore, f(x) is increasing on the interval (-3, 2) and decreasing on the intervals (-∞, -3) and (2, ∞).

(b) To find the local maximum and minimum values of f(x), we need to examine the critical points of f(x) and the endpoints of the intervals we found in part (a).

f(-3) = 81, f(2) = -64, and f(x) approaches -∞ as x approaches -∞ or ∞.

Therefore, the local maximum value of f(x) is 81 at x = -3 and the local minimum value of f(x) is -64 at x = 2.

(c) To find the intervals of concavity and the inflection points of the function, we need to find the second derivative of f(x) and determine where it is positive or negative.

f''(x) = 12x + 6

The inflection point occurs at x = -1/2, where f''(x) changes sign from negative to positive.

If x < -1/2, then f''(x) < 0, so f(x) is concave down on (-∞, -1/2).

If x > -1/2, then f''(x) > 0, so f(x) is concave up on (-1/2, ∞).

Therefore, the interval of concavity is (-∞, -1/2) for concave down and (-1/2, ∞) for concave up, and the inflection point is (-1/2, f(-1/2)) = (-1/2, -27).

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Answer:

V = (1/3)π(8^2)(16) = 1,024π/3 cubic meters

= 1,072.33 cubic meters

Since 3.14 is used for π here:

V = (1/3)(3.14)(8^2)(16) =

1,071.79 cubic meters

(a) Divergence at the indicated point is positive. (b) Divergence at the indicated point is zero. (c) Divergence at the indicated point is negative.

To find the divergence of each vector field at the indicated point, we will first calculate the divergence of each field and then evaluate it at the given point.
(a) The vector field is given as F = xi + yj.
The divergence of a 2D vector field F = P(x,y)i + Q(x,y)j is calculated as:
div(F) = (∂P/∂x) + (∂Q/∂y)
For this vector field, P(x,y) = x and Q(x,y) = y. So:
div(F) = (∂x/∂x) + (∂y/∂y) = 1 + 1 = 2
The divergence at the indicated point is positive.
(b) The vector field is given as F = yi.
For this vector field, P(x,y) = y and Q(x,y) = 0. So:
div(F) = (∂y/∂x) + (∂0/∂y) = 0 + 0 = 0
The divergence at the indicated point is zero.
(c) The vector field is given as F = yi - yj.
For this vector field, P(x,y) = y and Q(x,y) = -y. So:
div(F) = (∂y/∂x) + (∂(-y)/∂y) = 0 - 1 = -1
The divergence at the indicated point is negative.

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The solution to the differential equation with the given initial condition is y = (√([tex]x^2 + 1[/tex]) - 3x) / 2.

We can separate the variables and integrate both sides as follows:

∫ 1/(9x - 4y√([tex]x^2 + 1[/tex])) dy = ∫ dx

Let u = [tex]x^2 + 1[/tex], then du/dx = 2x and we have:

∫ 1/(9x - 4y√([tex]x^2 + 1[/tex])) dy = ∫ 1/u * (du/dx) dy

∫ 1/(9x - 4y√([tex]x^2 + 1[/tex])) dy = ∫ 2x/([tex]9x^2 - 4y^2u[/tex]) du

We can now integrate both sides with respect to their respective variables:

(1/4)ln|9x - 4y√([tex]x^2[/tex] + 1)| + C1 = ln|u| + C2

(1/4)ln|9x - 4y√([tex]x^2[/tex] + 1)| + C1 = ln|x^2 + 1| + C2

where C1 and C2 are constants of integration.

Using the initial condition y(0) = 4, we can substitute x = 0 and y = 4 into the above equation to solve for C1 and C2:

(1/4)ln|36| + C1 = ln|1| + C2

C1 = C2 - (1/4)ln(36)

Substituting this into the above equation, we get:

(1/4)ln|9x - 4y√([tex]x^2 + 1[/tex])| = ln|[tex]x^2 + 1[/tex]| - (1/4)ln(36)

Taking the exponential of both sides, we get:

|9x - 4y√([tex]x^2 + 1)|^{(1/4)[/tex] = |[tex]x^2 + 1|^{(1/4)[/tex] / 6

Squaring both sides and simplifying, we get:

y = (√([tex]x^2 + 1[/tex]) - 3x) / 2

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The percentage of the population that does not meet US military enlistment standards is 15.87%.

The provided information is:

Let X represent the adult IQ test results, which are normally distributed with a mean (μ) of 100 and a standard deviation (Σ) of 15.

In addition, the US military requires a minimum IQ of 85.

As a result, the likelihood that a randomly picked adult will not fulfill US military enrollment criteria is: P(X < 85)

The probability can also be written as:

P(X < x) = P(Z < (x - μ)/Σ)

Now we take X = x

Thus,

P(X = 85)

=P(Z) = (85 - 100)/15)

= P(Z) = (-15/15)

=P(Z) =  (-1)

Taking the probability of Z = -1, using the standard normal distribution table  to find the area to the left of a z-score of -1 is approximately 0.1587.

Thus, the required probability is 0.1587. So the percentage of the population does not meet US military enlistment standards is 15.87%.

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(a) Using the formula for nth partial sum s2 = a1 + a2, we can find a2, a3, a4 and solving for the next term in the series.

(b) The sum of series is 7.

(a) To find an for n > 1, we can use the formula for the nth partial sum:

sn = 7n-5/2n + 5

Substituting n = 1 gives:

s1 = 7(1) - 5/2(1) + 5 = 6.5

We can then use this value to find a2:

s2 = 7(2) - 5/2(2) + 5 = 10

Using the formula for the nth partial sum, we can write:

s2 = a1 + a2 = 6.5 + a2

Solving for a2 gives:

a2 = s2 - 6.5 = 10 - 6.5 = 3.5

Similarly, we can find a3, a4, and so on by using the formula for the nth partial sum and solving for the next term in the series.

(b) To find the sum of the series sigma n = 1 to infinity an, we can take the limit as n approaches infinity of the nth partial sum:

lim n -> infinity sn = lim n -> infinity (7n-5/2n + 5)

We can use L'Hopital's rule to evaluate this limit:

lim n -> infinity (7n-5/2n + 5) = lim n -> infinity (7 - 5/(n ln 2)) = 7

Therefore, the sum of the series is 7.

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The maximum and minimum values of f(x, y) = x² + 9y on ellipse 4x² + 9y² = 9 is  ([tex]\frac{3\sqrt{-3} }{2}, 2[/tex]).

A function is a relationship between two values, x from the first set and y from the second set. The greatest value of a function is regarded as the function's maximum value, while the lowest value is regarded as the function's minimum value.

The following procedures should be taken in order to determine a function's maximum and lowest values: Find the roots of the differentiated function, the first derivative of the function, and the critical point. Apply the crucial result from the function's second derivative to the provided function's second derivative to find its second derivative. If the critical point replaced in the second derivative is positive or negative, find the maximum/minimum value by replacing the points at which the original function reaches either of its critical values.

First, we solve the constraint function for x² so we can simplify f(x,y) into f(y).

4x² + 9y² = 9

x² = 9-9y²/4

We then substitute the equation for x² into the function and simplify.

f(y) =  x² + 9y

f(y) = 9-9y²/4 + 9y

f(x) = 9-9y²/4 + 9y

f'(x) = -9y/2 + 9

0 = -9y/2 + 9

-9 = -9y/2

y = 2

f(x) = 9-9y²/4 + 9y

f'(x) = -9y/2 + 9

f"(x) = -9/2

4x² + 9y² = 9

4(x)² + 9(2)² = 9

4x² = 9 - 36

4x² = -27

x² = -27/4

x = [tex]\frac{3\sqrt{-3} }{2}[/tex]

The maximum and minimum function occurs at the point is ([tex]\frac{3\sqrt{-3} }{2}, 2[/tex]).

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a) "All men are mortal."
Negation: Not all men are mortal. (This means that there may be some men who are not mortal.)
b) "Some men are mortal."
Negation: No men are mortal. (This means that there are no men who are mortal.)
c) "At least one man is immortal."
Negation: No men are immortal. (This means that there are no men who are immortal.)
d) "Every man is immortal."
Negation: Not every man is immortal. (This means that there may be some men who are not immortal.)

You negate the following statements:

(a) All men are not mortal. This statement implies that there are some men who are not subject to death or decay.

(b) Some men are not mortal. This statement suggests that there are certain men who are not destined to die or are not subject to death.

(c) No man is immortal. This statement implies that there is not a single man who possesses eternal life or is exempt from death.

(d) Not every man is immortal. This statement suggests that there are some men who are not immune to death or do not possess eternal life.

In each negation, we've modified the original statement to express the opposite or contradictory meaning. Remember, negations do not imply truth, but rather provide an alternative perspective on the given statement.

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Answer:

Step-by-step explanation: Let the numbers be X and Y

Given : twice the number added to second number : 2x+y= -8 ==> (1)

Difference of the two numbers : x-y=-2  ==> (2)

(2)*2 = 2x-2y=-4

-(1)    =-2x- y = 8   ( adding (2)*2 ,-(1) equations)

______________

            0-3y=4

hence y=-4/3 and from equation (2) : x=-2+y ==>x= -4/3 -2 = -10/3

The two numbers are -4/3 and -10/3

From the information given,

Let the numbers be x and y, we have;

2x + y = -8

x - y = - 2

Now, from equation 2, make 'x' the subject of formula

x= -2 + y

Substitute the value of x into equation 1, we get;

2x + y = -8

2(-2 + y) + y = -80

expand the bracket

-4 + 2y + y = -8

collect the like terms

3y = -4

y = -4/3

Substitute the value

x = -2 + (-4)/3

add the values

x = -2 -4/3

x = -6 - 4 /3

x = -10/3

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(a) Let's denote the event that a red ball was initially removed as "R", and the event that a blue ball was initially removed as "B". We want to find the probability of event R given that the ball was observed to be blue in all six experiments.

By Bayes' Theorem, we have:

P(R | 6 blue) = [P(6 blue | R) * P(R)] / [P(6 blue | R) * P(R) + P(6 blue | B) * P(B)]

P(6 blue | R) represents the probability of observing blue in all six experiments given that a red ball was initially removed. Since the balls are replaced after each experiment, the probability of drawing a blue ball in one experiment given that a red ball was initially removed is 4/8 = 1/2.

P(R) represents the probability of initially removing a red ball, which is 4/8 = 1/2.

P(6 blue | B) represents the probability of observing blue in all six experiments given that a blue ball was initially removed. Since the balls are replaced after each experiment, the probability of drawing a blue ball in one experiment given that a blue ball was initially removed is also 4/8 = 1/2.

P(B) represents the probability of initially removing a blue ball, which is 4/8 = 1/2.

Substituting the values into the equation:

P(R | 6 blue) = [(1/2) * (1/2)] / [(1/2) * (1/2) + (1/2) * (1/2)] = (1/4) / (1/4 + 1/4) = 1/2

Therefore, the probability that a red ball was initially removed from the box, given that a blue ball was observed in all six experiments, is 1/2.

(b) Similarly, using the same reasoning, we can apply Bayes' Theorem to calculate the probability of event R (red ball was initially removed) given that the ball was observed to be red 36 times and blue 47 times in 83 experiments:

P(R |

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The probability of white will be 0.1053

The probability of blue will be 0.6316.

The probability of resort white will be 0.3684.

The total number of hits in this sample is:

12 + 5 + 2 = 19

P(white) = number of white hits / total number of hits

P(white) = 2 / 19

P(white) ≈ 0.1053

P(blue) = number of blue hits / total number of hits

P(blue) = 12 / 19

P(blue) ≈ 0.6316

P(red or white) = (number of red hits + number of white hits) / total number of hits

P(red or white) = (5 + 2) / 19

P(red or white) ≈ 0.3684

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To determine the value of the problem, if we get the following result, then the equation will be:

y = 30, x = 3.

To solve the initial value problem y = 3 with y0 = 21, we need to find the equation for y. Since the derivative of y is constant at 3, we can integrate both sides to get:

y = 3x + C

where C is a constant of integration. To determine the value of C, we use the initial condition y0 = 21:

21 = 3(0) + C
C = 21

So the equation for y is:

y = 3x + 21
4. Apply the initial value y(0) = 21: 21 = (3/2)(0)^2 + C => C = 21.

5. Substitute C back into the equation: y = (3/2)t^2 + 21.

Now, we need to determine the value of t when y = 30:

6. Set y equal to 30: 30 = (3/2)t^2 + 21.

7. Solve for t: (3/2)t^2 = 9 => t^2 = 6 => t = √6.

To find the value of x when y = 30, we plug in y = 30 and solve for x:
30 = 3x + 21
9 = 3x
x = 3

Therefore, when y = 30, x = 3.

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The final sorted list is [1, 2, 3, 4, 5, 6]. We start with the first element (6) and consider it as a sorted list. The next element (2) is compared with the first element and swapped to get [2, 6, 3, 1, 5, 4].

Step 1: The next element (3) is compared with 6 and inserted before it to get [2, 3, 6, 1, 5, 4].
Step 2: The next element (1) is compared with 6 and inserted before it to get [2, 3, 1, 6, 5, 4]. Then, it is compared with 3 and 2 and inserted in the correct position to get [1, 2, 3, 6, 5, 4].
Step 3: The next element (5) is compared with 6 and inserted before it to get [1, 2, 3, 5, 6, 4]. Then, it is compared with 3 and 2 and inserted in the correct position to get [1, 2, 3, 5, 6, 4].
Step 4: The next element (4) is compared with 6 and inserted before it to get [1, 2, 3, 5, 4, 6]. Then, it is compared with 3, 2, and 1 and inserted in the correct position to get [1, 2, 3, 4, 5, 6].
Thus, the final sorted list is [1, 2, 3, 4, 5, 6].

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A cable hangs between two poles 10 yards apart. The cable forms a catenary that can be modeled 5. We need to integrate the function over this interval.

Here's a step-by-step explanation:

1. Write down the integral: ∫[-5, 5] (10cosh(x/10) - 8) dx
2. Compute the antiderivative of the function: 100sinh(x/10) - 8x + C (C is the constant of integration)
3. Evaluate the antiderivative at the limits of integration: [100sinh(5/10) - 8(5)] - [100sinh(-5/10) - 8(-5)]
4. Simplify the expression: [100sinh(1/2) - 40] - [100sinh(-1/2) + 40]
5. Calculate the numerical value: [100(1.1752) - 40] - [100(-1.1752) + 40]
6. Perform the arithmetic: [117.52 - 40] - [-117.52 + 40] = 77.52 + 77.52
7. Add the results: 155.04

So, the area under the catenary between a = -5 and x = 5 is approximately 155.04 square yards.

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The volume of the solid of revolution is 1/3πb([tex]16b^2 - 24ab^2[/tex]).

To find the volume of the region e that lies between the paraboloid [tex]z = 4y^2[/tex] and the cone z = [tex]2sx^2 - y^2,[/tex]

we need to first find the intersection point between the two curves and then use the formula for the volume of a solid of revolution.

The intersection point between the two curves is where the paraboloid and the cone intersect. To find this intersection point, we can set the two equations equal to each other and solve for y:

[tex]4y^2 = 2sx^2 - y^2[/tex]

Multiplying both sides by 2sx and then subtracting [tex]4y^2[/tex] from both sides:

[tex]2sx^2 = 4y^2 - y^2[/tex]

Simplifying the left side:

[tex]2sx^2 = 3y^2[/tex]

Dividing both sides by 2sx:

[tex]y^2 = 3/s[/tex]

Now we can find the intersection point using the formula for the intersection of a paraboloid and a cone:

(x/s, y/s) = (a, b)

where (a, b) is the vertex of the cone and (x/s, y/s) is the point where the paraboloid and the cone intersect.

To find a and b, we need to solve for x and y in terms of s:

x = 2by

y = 2ax

Substituting these equations into the formula for the vertex of the cone:

[tex]a = s^2/4[/tex]

[tex]b = s^2/2[/tex]

Now we can substitute these values into the formula for the intersection point:

[tex](x/s, y/s) = (s^2/4, s^2/2)[/tex]

Solving for s:

s = 2(x/b + y/a)

Substituting the values we found earlier:

s = 2((2by)/(2ax) + (2ax)/(2by))

Simplifying:

s = (2b + 2a)/(2a + 2b)

s = (2b + 2a)/(2(b + a))

s = (2b + 2a)/3

Now we can substitute this value of s back into the formula for the intersection point:

[tex](x/s, y/s) = (s^2/4, s^2/2)[/tex]

Solving for x and y:

[tex]x = s^2/4[/tex]

[tex]y = s^2/2[/tex]

Therefore, the intersection point of the paraboloid and the cone is ([tex]s^2/4, s^2/2)[/tex], and the volume of the solid of revolution is:

[tex]V = 1/3π s^3[/tex]

Plugging in the value of s:

[tex]V = 1/3π [(2b + 2a)/3]^3[/tex]

Simplifying:

V = 1/3π (2b + 2a)^3

Plugging in the values we found earlier:

V = 1/3π [(2(2b) + 2(2a))^3]

Simplifying:

[tex]V = 1/3π (8b + 8a)^3[/tex]

[tex]V = 1/3π (8b^3 + 8ab^2 + 8a^3 + 8ab^3)[/tex]

[tex]V = 1/3π (8(b^3 + 3ab^2) + 8a(b^2 + 3a^2))[/tex]

[tex]V = 1/3π (8b^3 + 24ab^2 + 8a(b^2 + 2a^2))[/tex]

[tex]V = 1/3π (8b^3 + 24ab^2 + 16a^2b^2)[/tex]

[tex]V = 1/3π (8b^3 + 24ab^2 + 48ab^2)[/tex]

[tex]V = 1/3π (2b^3 + 24ab^2 + 48ab^2)[/tex]

Finally, we can simplify the expression for the volume:

[tex]V = 1/3π [(2b + 2a)^3 - (2b - 2a)^3][/tex]

Simplifying:

V = 1/3π [(2b + 2a)^3 - (2b - 2a)^3]

V = 1/3π ([tex]4b^3 + 12ab^2 + 16ab^2 - 4b^3 - 12ab^2 - 16ab^2[/tex])

V = 1/3π ([tex]8b^3 + 24ab^2 - 4b^3 - 12ab^2 - 16ab^2[/tex])

V = 1/3π ([tex]16b^3 - 24ab^2[/tex])

V = 1/3π (b([tex]16b^2 - 24ab^2[/tex]))

V = 1/3π b([tex]16b^2 - 24ab^2[/tex])

Therefore, the volume of the solid of revolution is 1/3πb([tex]16b^2 - 24ab^2[/tex]).  

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To find f'(-1), we need to take the derivative of f(x) and then evaluate it at x = -1. Using the chain rule, we get: f'(x) = 8x + 8 / (4x^2 + 8x + 5), f'(-1) = 8(-1) + 8 / (4(-1)^2 + 8(-1) + 5), f'(-1) = -8 + 8 / 1, f'(-1) = 0. So, f'(-1) = 0. We don't need to round to 3 decimal places in this case since the answer is an integer.

To find f'(-1) for f(x) = ln(4x^2 + 8x + 5), we first need to find the derivative of the function with respect to x, and then evaluate it at x = -1. Here's the step-by-step process:

1. Identify the function: f(x) = ln(4x^2 + 8x + 5)
2. Differentiate using the chain rule: f'(x) = (1 / (4x^2 + 8x + 5)) * (d(4x^2 + 8x + 5) / dx)
3. Find the derivative of the inner function: d(4x^2 + 8x + 5) / dx = 8x + 8
4. Substitute the derivative of the inner function back into f'(x): f'(x) = (1 / (4x^2 + 8x + 5)) * (8x + 8)
5. Evaluate f'(-1): f'(-1) = (1 / (4(-1)^2 + 8(-1) + 5)) * (8(-1) + 8)
6. Simplify the expression: f'(-1) = (1 / (4 - 8 + 5)) * (-8 + 8)
7. Continue simplifying: f'(-1) = (1 / 1) * 0
8. Final answer: f'(-1) = 0

Since f'(-1) is an integer, there is no need to round to any decimal places f'(-1) = 0.

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The partial derivative of the function with respect to y is: ∂/∂y [(8y-8x)/(9x+8y)] = 8/(9x+8y) - (64x)/(9x+8y)^2To find the partial derivatives of the function (8y-8x)/(9x+8y), we need to take the derivative with respect to each variable separately.

First, let's find the partial derivative with respect to x. To do this, we treat y as a constant and differentiate the function with respect to x:
(8y-8x)/(9x+8y)
= (8y)/(9x+8y) - (8x)/(9x+8y)
Using the quotient rule, we can simplify this expression:
= (-8y(9))/((9x+8y)^2) - 8/(9x+8y)
Simplifying further, we get:
= (-72y)/(9x+8y)^2 - 8/(9x+8y)
Therefore, the partial derivative of the function with respect to x is:

∂/∂x [(8y-8x)/(9x+8y)] = (-72y)/(9x+8y)^2 - 8/(9x+8y)
Now, let's find the partial derivative with respect to y. To do this, we treat x as a constant and differentiate the function with respect to y:
(8y-8x)/(9x+8y)
= (8y)/(9x+8y) - (8x)/(9x+8y)
Using the quotient rule again, we get:
= 8/(9x+8y) - (8x(8))/((9x+8y)^2)
Simplifying further, we get:
= 8/(9x+8y) - (64x)/(9x+8y)^2
Therefore, the partial derivative of the function with respect to y is:
∂/∂y [(8y-8x)/(9x+8y)] = 8/(9x+8y) - (64x)/(9x+8y)^2
And that's how we find the partial derivatives of the function (8y-8x)/(9x+8y) using the quotient rule and differentiation with respect to each variable separately.

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The distance between the two points (0,7) and (−6,3) is approximately 7.2

Here, we have,

We are asked to find the distance between two points. We will calculate the distance using the following formula;

Formula: distance= √(x_2-x_1)²+(y_2-y_1)²

In this formula, (x₁ , y₁) and (x₂ , y₂) are the 2 points.

We are given the points ( 0 , 7 ) and ( − 6 , 3 ) .

If we match the value and the corresponding variable, we see that:

x₁= 0      

y₁= 7        

x₂= -6    

y₂= 3

Substitute the values into the formula.

distance= √(x_2-x_1)²+(y_2-y_1)²

Solve inside the parentheses.

(-6 - 0)= -6

(3 - 7)=  -4

Solve the exponents. Remember that squaring a number is the same as multiplying it by itself.

(-6)²= 36

(-4)²= 16

Add.

36 + 16 = 52

Take the square root of the number.

d = 7.21

Round to the nearest tenth.

The distance between the two points (0,7) and (−6,3) is approximately 7.2

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Answer:

The answer is -3.

(Hope this helps)

Step-by-step explanation:


The diameter of a nucleus is much smaller than the diameter of a proton. In fact, it is about 10,000 times smaller!

If we imagine the diameter of a proton to be equal to 1 unit, then the diameter of a nucleus would be equal to 0.0001 units.

To write this in scientific notation, we can express it as 1 x 10^-3 units.

So, the diameter of a proton times 10 raised to what power is equivalent to the diameter of a nucleus?

The answer is -3.

The diameter of a proton times 10 raised to the power of -1 is equivalent to the diameter of a nucleus.

The diameter of a proton is approximately 1.75 x 10-15 meters, and the diameter of a typical atomic nucleus is approximately 1 x 10-14 meters.

To find the power to which we need to raise 10 in order to equate the two diameters, we can set up an equation:

1.75 x 10-15 = 1 x 10-14 * 10x

Dividing both sides of the equation by 1 x 10-14, we get:

x = -1

Therefore, the diameter of a proton times 10 raised to the power of -1 is equivalent to the diameter of a nucleus.

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The derivative of y = ln(4x) with respect to x is dy/dx = 1/x.

To find the derivative of y with respect to x in this problem, we will use the rule for derivatives of logarithms.
12. y = ln(3x + x)
Using the chain rule, we can rewrite this as:
y = ln(4x)
Then, taking the derivative:
y' = (1/4x) * 4 = 1/x
So, the derivative of y with respect to x is 1/x.

Let's consider the given function y = ln(3x + x), which can be simplified as y = ln(4x).

To find the derivative of y with respect to x, we'll use the chain rule for differentiation. The chain rule states that the derivative of a composite function is the derivative of the outer function times the derivative of the inner function.

In this case, the outer function is ln(u) and the inner function is u = 4x.

Step 1: Find the derivative of the outer function with respect to u:
dy/du = 1/u

Step 2: Find the derivative of the inner function with respect to x:
du/dx = 4

Step 3: Apply the chain rule (dy/dx = dy/du * du/dx):
dy/dx = (1/u) * 4

Step 4: Substitute the inner function (u = 4x) back into the derivative:
dy/dx = (1/(4x)) * 4

Step 5: Simplify the expression:
dy/dx = 4/(4x) = 1/x

So, the derivative of y = ln(4x) with respect to x is dy/dx = 1/x.

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Answer:

c.

Step-by-step explanation:

To determine the angle between ab¯¯¯¯¯¯¯¯ and ac¯¯¯¯¯¯¯¯, we first need to find the vectors associated with those line segments.

The vector associated with ab¯¯¯¯¯¯¯¯ is:

b - a = (2,1) - (9,2) = (-7,-1)

The vector associated with ac¯¯¯¯¯¯¯¯ is:

c - a = (4,9) - (9,2) = (-5,7)

To find the angle between these two vectors, we can use the dot product formula:

a · b = ||a|| ||b|| cos(θ)

Where a · b is the dot product of vectors a and b, ||a|| and ||b|| are the magnitudes of the vectors, and θ is the angle between the vectors.

In this case, we have:

(-7,-1) · (-5,7) = ||(-7,-1)|| ||(-5,7)|| cos(θ)

(44) = √50 √74 cos(θ)

Simplifying:

cos(θ) = 44 / (2√1850)

cos(θ) = 0.3913

Taking the inverse cosine:

θ ≈ 67.15 degrees

Therefore, the angle between ab¯¯¯¯¯¯¯¯ and ac¯¯¯¯¯¯¯¯ is approximately 67.15 degrees.

To find the angle between vectors AB and AC, we'll first find the vectors AB and AC, then calculate the dot product and magnitudes, and finally use the cosine formula.

1. Find vectors AB and AC:
AB = B - A = (2 - 9, 1 - 2) = (-7, -1)
AC = C - A = (4 - 9, 9 - 2) = (-5, 7)

2. Calculate the dot product and magnitudes:
Dot product: AB • AC = (-7)(-5) + (-1)(7) = 35 - 7 = 28
Magnitude of AB = √((-7)^2 + (-1)^2) = √(49 + 1) = √50
Magnitude of AC = √((-5)^2 + 7^2) = √(25 + 49) = √74

3. Use the cosine formula to find the angle θ:
cos(θ) = (AB • AC) / (||AB|| ||AC||) = 28 / (√50 * √74)
θ = arccos(28 / (√50 * √74))

You can use a calculator to find the arccos value and get the angle θ in degrees.

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The solution to the initial value problem is: y(x) = 2 * e^(4x) + x * e^(4x)

To find a general solution to the differential equation y′′ - 4y′ + 29y = 0, we first note that this is a second-order linear homogeneous differential equation with constant coefficients. The characteristic equation is given by:

r^2 - 4r + 29 = 0

Solving for r, we get a quadratic equation with complex roots:

r = 2 ± 5i

Now, we use these roots to form a general solution:

y(x) = e^(2x) (C1 * cos(5x) + C2 * sin(5x))

For the initial value problem y′′ - 8y′ + 16y = 0, y(0) = 2, y′(0) = 9, we again have a second-order linear homogeneous differential equation. The characteristic equation is:

r^2 - 8r + 16 = 0

This time, we get a repeated real root:

r = 4

So, the general solution is:

y(x) = C1 * e^(4x) + C2 * x * e^(4x)

Now, we apply the initial conditions:

y(0) = 2 = C1 * e^(0) + C2 * 0 * e^(0) => C1 = 2

y′(x) = C1 * 4 * e^(4x) + C2 * (e^(4x) + 4x * e^(4x))

y′(0) = 9 = C1 * 4 * e^(0) + C2 * e^(0) => 9 = 2 * 4 + C2 => C2 = 1

Thus, the solution to the initial value problem is:

y(x) = 2 * e^(4x) + x * e^(4x)

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Answer:

To graph a quadratic function with a set of {-1,3}, we need to find the equation of the function first. Since we are given two points, we can use them to form a system of equations and solve for the coefficients of the quadratic function.

Let's assume that the quadratic function has the standard form:

f(x) = ax^2 + bx + c

Using the given points (-1, 0) and (3, 0), we can set up the following system of equations:

a(-1)^2 + b(-1) + c = 0

a(3)^2 + b(3) + c = 0

Simplifying each equation, we get:

a - b + c = 0

9a + 3b + c = 0

Now we can solve this system of equations using any method we prefer. For example, we can use substitution to eliminate one of the variables. Solving for c in the first equation, we get:

c = b - a

Substituting this expression for c into the second equation, we get:

9a + 3b + (b - a) = 0

Simplifying this equation, we get:

8a + 4b = 0

Dividing both sides by 4, we get:

2a + b = 0

Solving for b in terms of a, we get:

b = -2a

Substituting this expression for b into c = b - a, we get:

c = -3a

Therefore, the quadratic function can be written as:

f(x) = ax^2 - 2ax - 3a

To find the vertex of the parabola, we can use the formula:

x = -b/2a

Substituting a = 1 and b = -2a, we get:

x = -(-2a)/(2a) = 1

To find the y-coordinate of the vertex, we can substitute x = 1 into the function f(x):

f(1) = a(1)^2 - 2a(1) - 3a = -a

Therefore, the vertex of the parabola is at the point (1, -a).

To find the x-intercepts, we can set f(x) = 0 and solve for x:

ax^2 - 2ax - 3a = 0

Dividing both sides by a, we get:

x^2 - 2x - 3 = 0

Factoring this quadratic equation, we get:

(x - 3)(x + 1) = 0

Therefore, the x-intercepts of the parabola are at x = 3 and x = -1.

To find the y-intercept, we can substitute x = 0 into the function f(x):

f(0) = a(0)^2 - 2a(0) - 3a = -3a

Therefore, the y-intercept of the parabola is at the point (0, -3a).

Finally, to find the reflection of the y-intercept in the axis of symmetry (which is x = 1), we can use the formula:

x' = 2p - x

where p is the x-coordinate of the vertex. Substituting p = 1 and x = 0, we get:

x' = 2(1) - 0 = 2

Therefore, the reflection of the y-intercept in the axis of symmetry is at the point (2, -3a).

To summarize, the quadratic function that passes through the points (-1, 0) and (3, 0) can be written as f(x) = ax^2 - 2ax - 3a, where a is any non-zero constant. The vertex of the parabola is at the point (1, -a), the x-intercepts are at x = -1 and x = 3, the y-intercept is at the point (0, -3a), and the reflection of the y-intercept in the axis of symmetry is at the point (2, -3a).

The shipping and handling charges that Spencer will be paying are $18.9.

The information that is provided is:

A model of the solar system is priced at $63.

Shipping and handling charges are 30% of the price.

The Shipping and handling will be:

= $63 * 30 %

= 63 * 30 /100

= $18.9

The shipping charges will be on the basis of the price is $18.9.

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The particular solution satisfying the given initial conditions is: y(t) = 2et - e-t.

To find a particular solution, we first need to find the general solution. Since y1(t), y2(t), and y3(t) are linearly independent solutions, the general solution can be written as y(t) = c1y1(t) + c2y2(t) + c3y3(t), where c1, c2, and c3 are constants to be determined.

Using the characteristic equation, we can find that the characteristic roots are r1 = 1, r2 = -1, and r3 = 2. Therefore, the three linearly independent solutions are y1(t) = et, y2(t) = e-t, and y3(t) = e2t.

Next, we can use the initial conditions to solve for the constants. From y(0) = 1, we have c1 + c2 + c3 = 1. From y'(0) = 2, we have c1 - c2 + 2c3 = 2. From y''(0) = 0, we have c1 + c2 + 4c3 = 0.

Solving these equations simultaneously, we get c1 = 1/2, c2 = -1/2, and c3 = 0. Therefore, the general solution is y(t) = (1/2)et - (1/2)e-t.

Finally, to find the particular solution satisfying the given initial conditions, we add the complementary function y(t) to a particular solution yp(t) and determine the constants in yp(t) to satisfy the initial conditions. Since y(t) = (1/2)et - (1/2)e-t is the complementary function, we can guess a particular solution of the form yp(t) = Aet. Then, yp'(t) = Aet and yp''(t) = Aet.

Substituting yp(t), yp'(t), and yp''(t) into the differential equation and simplifying, we get 3Aet = 0, which implies A = 0. Therefore, the particular solution is yp(t) = 0, and the final solution is y(t) = y(t) + yp(t) = (1/2)et - (1/2)e-t + 0 = 2et - e-t.

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