I need help with this question can you also go step by step because tomorrow I have a quiz?

The solution 143 milliters of HCl.

To answer this question, we need to calculate the ratio of HCl to water in the first solution, then apply that ratio to the second solution.

In the first solution, there are 66 milliliters of HCl and 90 milliliters of water, so the ratio of HCl to water is 66/90 = 0.733.

To make the second solution with the same concentration of HCl, it must have the same ratio of HCl to water. This means that for the second solution, 0.733 of the 195 milliliters of water must be HCl.

To calculate the amount of HCl in the second solution, we multiply 0.733 and 195: 0.733 * 195 = 143.985 milliliters of HCl. Since we cannot have part of a milliliter, the answer is 143 milliliters of HCl.

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The derivative of u in terms of distributions.

Proof:

First, let's prove that u defines a distribution. To do this, we need to show that u is linear and continuous.
Linearity:

Let ɸ₁ and ɸ₂ be two test functions and let a and b be two scalars. Then:

u(aɸ₁ + bɸ₂) = ∫ 1/√x (aɸ₁(x) + bɸ₂(x)) dx

= a∫ 1/√x ɸ₁(x) dx + b∫ 1/√x ɸ₂(x) dx

= au(ɸ₁) + bu(ɸ₂)

Therefore, u is linear.
Continuity:

Let ɸₙ be a sequence of test functions converging to 0 in D(R). Then:

|u(ɸₙ)| = |∫ 1/√x ɸₙ(x) dx|

≤ ∫ |1/√x ɸₙ(x)| dx

≤ ∫ |1/√x| |ɸₙ(x)| dx

≤ ∫ |1/√x| ||ɸₙ||∞ dx

= ||ɸₙ||∞ ∫ |1/√x| dx

Since ɸₙ converges to 0 in D(R), ||ɸₙ||∞ → 0 as n → ∞. Also, ∫ |1/√x| dx is finite. Therefore, |u(ɸₙ)| → 0 as n → ∞, which means u is continuous.

Since u is linear and continuous, u defines a distribution.
Derivative:

Now, let's calculate the derivative of u in terms of distributions. By definition, the derivative of a distribution u is another distribution u' such that:

u'(ɸ) = -u(ɸ')

So, we need to find a distribution u' that satisfies this equation. Let's substitute the definition of u into the equation:

u'(ɸ) = -∫ 1/√x ɸ'(x) dx

Now, let's integrate by parts:

u'(ɸ) = -[1/√x ɸ(x)]∞₀ + ∫ ɸ(x) d(1/√x) dx

= -[1/√x ɸ(x)]∞₀ + ∫ ɸ(x) (-1/2x^(3/2)) dx

= ∫ (1/2x^(3/2)) ɸ(x) dx

Therefore, the derivative of u in terms of distributions is:

u'(ɸ) = ∫ (1/2x^(3/2)) ɸ(x) dx

This is the distribution that satisfies the equation u'(ɸ) = -u(ɸ').

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The expression is proved by the following steps.

Trigonometry uses six fundamental trigonometric operations. Trigonometric ratios describe these operations. The sine function, cosine function, secant function, co-secant function, tangent function, and co-tangent function are the six fundamental trigonometric functions.

The ratio of sides of a right-angled triangle is the basis for trigonometric functions and identities. Using trigonometric formulas, the sine, cosine, tangent, secant, and cotangent values are calculated for the perpendicular side, hypotenuse, and base of a right triangle.

Part A:

student A verified the identity properly Reason student A applied the trigonometric identities

Part B:

The identities used in student A verification are

step 1: sec x = 1/cosx

cosecx= 1 /sin x

(sec x)(csc x) = cot x + tan x

Hence this above equation is proved.

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I is both an ideal of k[x] and a principle ideal.

Let k be a field. The ideal of k, I = {p(x) ∈ k[x] : p(0) = 0}, is an ideal of k[x] because it satisfies the following properties:

1) Closure under addition: If p(x) and q(x) are both in I, then p(x) + q(x) is also in I. This is because p(0) + q(0) = 0 + 0 = 0, so (p + q)(0) = 0.

2) Closure under multiplication by elements of k[x]: If p(x) is in I and r(x) is any polynomial in k[x], then r(x)p(x) is also in I. This is because r(0)p(0) = 0, so (rp)(0) = 0.

Additionally, I is a principle ideal because it can be generated by a single element. In this case, the principle idea is the polynomial x, since any polynomial in I can be written as a multiple of x. For example, if p(x) = x^2 + 2x, then p(x) = x(x + 2), so p(x) is a multiple of x and is therefore in the ideal generated by x.

Therefore, I is both an ideal of k[x] and a principle ideal.

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Richard will make a profit of $6,600.00 by selling 30 pieces of Mir487 i.e. Option C

Given :

Price of broken transistor = $10.13

Price of Broken Mir487 = $29.87

Price of selling fixed Mir487 = $259.93

So, cost of making the product i.e. CP

             = Price of Broken Mir487  + Price of broken transistor

             = $29.87 + $10.13

             = $40

Finally, he sells the product i.e. SP = $259.93

Profit on one product = SP - CP

                                    = $259.93 - $40

                                    = $219.93

Profit on 30 products = 30 * Profit on one product

                                    = 30 * $219.93

                                    = $6,597.9

                                    = approximately $ 6,600.00

Thus, Richard will make a profit of  $ 6,600.00 by selling 30 pieces of Mir487.

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Answer:

Step-by-step explanation:

Answer:

1

Step-by-step explanation:

2 power 3 in numerator mean it is 8.

Divide th 2 power 3 in denominator it means 8.

Now upo dividing 8 and 8 it gives 1.

Same it can be understood by any number with exponent 0 is equal to 1.

The coordinates of Q' after the translation is found to be Q' = (1, -1).

Whenever a figure is relocated from one place to a different one without modifying its dimension, shape, or orientation, a transition known as translation takes place.

Point Q', which has been translated by 6 units to the right and 2 units down, is the mirror counterpart of Q(-5,1).

Then,

Q' = (-5 + 6, 1 - 2)

Q' = (1, -1)

Thus, the coordinates of Q' after the translation is found to be Q' = (1, -1).

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The correct question is-

Point Q', is the image of Q(-5,1), under a translation by 6 units to the right and 2 units down.

What are the coordinates of Q'?

The Average value  of the function f(x)=(12)/(x-10) from x=1 to x=7 -2 ln3.

The average value of a function f(x) over the interval [a,b] is given by the formula:

Average value = (1/(b-a)) ∫[a,b] f(x) dx

In this case, the function is f(x) = (12)/(x-10), the interval is [1,7], and we need to find the average value. Plugging in the values into the formula, we get:

Average value = (1/(7-1)) ∫[1,7] (12)/(x-10) dx

Average value = (1/6) ∫[1,7] (12)/(x-10) dx

Next, we need to find the integral of the function. We can use the formula for the integral of a rational function:

∫ (a)/(x-b) dx = a ln|x-b| + C

In this case, a = 12 and b = 10, so the integral of the function is:

∫ (12)/(x-10) dx = 12 ln|x-10| + C

Plugging this back into the formula for the average value, we get:

Average value = (1/6) (12 ln|7-10| - 12 ln|1-10|)

Average value = (1/6) (12 ln|-3| - 12 ln|-9|)

Average value = (1/6) (12 ln|3| - 12 ln|3^2|)

Average value = (1/6) (12 ln|3| - 12 (2 ln|3|))

Average value = (1/6) (12 ln|3| - 24 ln|3|)

Average value = (1/6) (-12 ln|3|)

Average value = -2 ln|3|

Therefore, the average value of the function f(x) = (12)/(x-10) from x = 1 to x = 7 is -2 ln|3|. We can express this as a constant times ln3 by factoring out the ln3:

Average value = -2 ln|3| = -2 ln3

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The measure m∠UTS is approximately 90 degrees.

Rhombus is a parallelogram whose all sides are of equal lengths.

Its diagonals are perpendicular to each other and they cut each other in half( thus, they're perpendicular bisector of each other).

Its vertex angles are bisected by its diagonals.

The triangles on either side of the diagonals are isosceles and congruent.

We are given that;

Angle VUR=(10x-23)degree

Angle TUV=(3x+19)degree

Now,

Since RSTU is a rhombus, its diagonals are perpendicular bisectors of each other, which means that angle VUT is a right angle. Therefore, we have:

m∠VUR + m∠TUV + m∠VUT = 180°

Substituting the given values, we get:

(10x - 23) + (3x + 19) + 90 = 180

13x + 86 = 180

13x = 94

x = 7.23 (rounded to two decimal places)

Now, we can find m∠UTS as follows:

m∠UTS = m∠VUR + m∠TUV

Substituting the value of x, we get:

m∠UTS = (10x - 23) + (3x + 19)

m∠UTS = (10 × 7.23 - 23) + (3 × 7.23 + 19)

m∠UTS = 72.3 - 23 + 21.69 + 19

m∠UTS = 89.99

Therefore, the answer of the given rhombus will be 90 degrees.

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A single point perspective projection onto the z=0 plane from a center of projection at z=-2 are A' = (3/4, 2/4, 0) = (0.75, 0.5, 0) for point A and B' = (3/8, 2/8, 0) = (0.375, 0.25, 0) for point B. There are no vanishing points at infinity along the x, y, and z-axis for this case.

To perform a single point perspective projection onto the z=0 plane from a center of projection at z=-2, we need to use the perspective projection formula:

P' = (x/z, y/z, 0)

For point A(3, 2, 4, 1), the projected point A' will be:

A' = (3/4, 2/4, 0) = (0.75, 0.5, 0)

For point B(3, 2, 8, 1), the projected point B' will be:

B' = (3/8, 2/8, 0) = (0.375, 0.25, 0)

Now, to determine the vanishing points at infinity along the x, y, and z-axis, we need to find the points where the line segment AB intersects the planes at infinity along each axis.

For the x-axis, the plane at infinity is x=∞. Since the line segment AB is parallel to the x-axis, it will never intersect this plane, and therefore there is no vanishing point along the x-axis.

For the y-axis, the plane at infinity is y=∞. Similarly, the line segment AB is parallel to the y-axis and will never intersect this plane, so there is no vanishing point along the y-axis.

For the z-axis, the plane at infinity is z=∞. The line segment AB is not parallel to the z-axis, so it will intersect this plane at a point with coordinates (x, y, ∞). To find this point, we can use the equation of the line segment AB:

(x - 3)/(3 - 3) = (y - 2)/(2 - 2) = (z - 4)/(8 - 4)

Solving for z=∞, we get:

(x - 3)/(3 - 3) = (y - 2)/(2 - 2) = (∞ - 4)/(8 - 4) = ∞

Since the denominators are all equal to zero, this equation is undefined, and therefore there is no vanishing point along the z-axis.

In conclusion, there are no vanishing points at infinity along the x, y, and z-axis for this case.

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If Martina spent a total of $15 at the grocery store. Of this amount, she spent $12 on fruit then Martina spent 80% of the total on fruit.

To find the percentage of the total that Martina spent on fruit, we can use the following formula:

percentage = (part / whole) x 100%

where "part" is the amount spent on fruit and "whole" is the total amount spent.

In this case, Martina spent $12 on fruit and a total of $15, so:

percentage = (12 / 15) x 100% = 80%

Therefore, Martina spent 80% of the total on fruit.

The concept used in the solution is percentage, which is a way of expressing a proportion or a fraction as a number out of 100. In this case, we want to find the percentage of the total amount spent that was spent on fruit.

To calculate the percentage, we first need to find the part and the whole. The "part" refers to the amount of money spent on fruit, which is $12 in this case. The "whole" refers to the total amount of money spent, which is $15.

The formula used to find the percentage is:

percentage = (part / whole) x 100%

By plugging in the values we know, we get:

percentage = (12 / 15) x 100% = 0.8 x 100% = 80%

This means that Martina spent 80% of her total grocery bill on fruit.

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We can say that JKLM is an isosceles trapezoid, since the non-parallel sides (JK and ML) are congruent.

A polygon is a closed plane figure with three or more straight sides that meet at the vertices. It is formed by connecting line segments endpoint-to-endpoint with each segment intersecting exactly two others.

The given quadrilateral JKLM has four sides, and its opposite sides are parallel.

Furthermore, since all four sides have different lengths, it is not a parallelogram.

Also, since no angles or sides are congruent, it is not a kite or a rhombus.

Therefore, the most specific classification for this quadrilateral would be a trapezoid, which is a quadrilateral with one pair of parallel sides.

To be more specific, we can say that JKLM is an isosceles trapezoid, since the non-parallel sides (JK and ML) are congruent.

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Answer: 8 * 8 = (distance between PQ and RS) * 8

distance between PQ and RS = 8" PQRS in units: 16 because 8 (PQ) + 8 (RS)=16, measurement type is units so 16 units

Step-by-step explanation:

*I used A.I to help explain this better.* It should make sense, just read/scan through it, as it explains the question very throughly.

"First, let's find the length of the sides of the rectangle. Since P and Q have the same x-coordinate, we know that PQ is a vertical line segment with length 8 units (since the y-coordinates of P and Q differ by 8). Similarly, since P and Q have the same y-coordinate, we know that RS is a horizontal line segment with length 8 units. Therefore, the length and width of the rectangle are both 8 units.

To find the coordinates of points R and S, we need to consider two cases:

a) Points R and S are to the left of points P and Q.

In this case, we can imagine that the rectangle is reflected across the y-axis, so that points P and Q become points P'(-1, -4) and Q'(-1, 4), respectively. Then, points R and S must lie on the line x=-2 (to the left of point P'), and the distance between them must be 8 units.

Since the area of the rectangle is 64 square centimeters, the length of RS is 8 units, and the length of PQ is 8 units, we know that the distance between PQ and RS (i.e., the height of the rectangle) is also 8 units. This means that the y-coordinates of R and S must differ by 8 units.

Let's choose a y-coordinate for point R. Since R is to the left of P', its x-coordinate is -2, and its y-coordinate must be between -4 and 4 (since the y-coordinates of P' and Q' are -4 and 4, respectively). Let's say that the y-coordinate of R is yR. Then, the y-coordinate of S must be yR + 8.

The area of the rectangle is (length)(width) = (8)(8) = 64 square centimeters. Since PQ is a vertical line segment, its length is the difference between the y-coordinates of P and Q, which is 8 units. Therefore, the length of RS is also 8 units. The distance between PQ and RS (i.e., the height of the rectangle) is also 8 units. Therefore, we can write:

8 * 8 = (distance between PQ and RS) * 8

distance between PQ and RS = 8

So, the y-coordinates of R and S differ by 8 units. Therefore, we can write:

yR + 8 - yR = 8

yR = 0

Therefore, the coordinates of R are (-2, 0), and the coordinates of S are (-2, 8).

b) Points R and S are to the right of points P and Q.

In this case, we can imagine that the rectangle is reflected across the x-axis, so that points P and Q become points P''(1, 4) and Q''(-1, 4), respectively. Then, points R and S must lie on the line y=-6 (to the right of point P''), and the distance between them must be 8 units.

Again, the area of the rectangle is (length)(width) = (8)(8) = 64 square centimeters. Since RS is a horizontal line segment, its length is the difference between the x-coordinates of R and S, which is 8 units. Therefore, the length of PQ is also 8 units. The distance between PQ and RS (i.e., the height of the rectangle) is also 8 units. Therefore, we can write:

8 * 8 = (distance between PQ and RS) * 8

distance between PQ and RS = 8"

Answer: 3rd one

Step-by-step explanation:

formula : 2πrh+2πr^2

Given -The area of the square is 36 sq.cm

To find - the perimeter of the square

Explanation- we know that the formula for area is

[tex]a^2=36[/tex]

we get side as

[tex]a=\sqrt{36} \\a=6[/tex]

The perimeter is given as

[tex]a4=4(6)=24[/tex]

Hence the perimeter is 24 sq.cm

Final answer- the perimeter is 24 sq.cm

The difference in the amount of tax withheld based on his previous W-4 form and the new W-4 form is estimated to be $7 per week for federal income tax withholding, meaning $7 more will be deducted from his weekly check if he claims no allowances.

The amount of tax withheld from Jason's paycheck depends on his taxable income, which is his gross income minus any deductions and exemptions. The number of allowances claimed on his W-4 form affects the amount of his paycheck that is subject to tax withholding.

If Jason claimed 1 allowance last year, his employer withheld tax as if he had $4,300 less in taxable income than if he had claimed no allowances. For 2023, the value of each allowance is $4,350.

Therefore, if Jason claims no allowances on his W-4 form, his taxable income will be $4,350 more than if he claimed 1 allowance.

Jason's gross income is $232.50 per week, which translates to $12,090 per year. If he claimed 1 allowance last year, his taxable income was $12,090 - $4,300 = $7,790. If he claims no allowances this year, his taxable income will be $7,790 + $4,350 = $12,140.

To determine how much more tax will be withheld from his weekly paycheck, we need to calculate the difference in the amount of tax withheld based on his previous W-4 form and the amount of tax withheld based on the new W-4 form.

Assuming that Jason is paid weekly, we can use the IRS tax withholding tables to estimate the federal income tax withheld for each situation.

Based on the 2023 IRS tax withholding tables, if Jason is single and claims 1 allowance, his employer would withhold $32 per week from his paycheck for federal income tax.

If he claims no allowances, his employer would withhold $39 per week from his paycheck for federal income tax.

Therefore, if Jason claims no allowances, $39 - $32 = $7 more will be deducted from his weekly check for federal income tax withholding.

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Answer:

Step-by-step explanation:

idrk

The the exact measurement of the height of the student is 6.279m.

A number can be expressed as a fraction of 100 using a percentage. It is frequently used, particularly in financial and statistical contexts, to depict ratios and proportions in a more practical and intelligible way. For instance, 50% denotes 50 out of 100, or half of a specified amount. It is represented by the letter "%".

Let's start by calculating the absolute error made in the measurement of the height of the pole:

Absolute error = 5% of 5.98m = 0.05 x 5.98m = 0.299m

If the actual height is 0.299m more than the measured value, then the actual height would be:

Actual height = 5.98m + 0.299m

                      = 6.279m

Therefore, the exact height is 6.279m.

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Answer:

If a+1/a=4, then (a+1/a)^3=4^3, and 4^3=4x4x4=64

Answer:

(a + 1/a)^3 = A^3 + 13.75.

Step-by-step explanation:

To solve this problem, we first need to simplify the expression (a + 1/a)^3 using the identity (a + b)^3 = a^3 + 3a^2b + 3ab^2 + b^3.

Let's start by expanding (a + 1/a)^3:(a + 1/a)^3 = a^3 + 3a^2(1/a) + 3a(1/a)^2 + (1/a)^3

We can simplify this expression using the fact that 1/a^2 = 1/a * 1/a:

(a + 1/a)^3 = a^3 + 3a + 3/a + 1/a^3

Now, we can substitute the given equation A + 1/a = 4:

(a + 1/a)^3 = A^3 + 3A + 3(1/A) + 1/a^3

We still need to find the value of a^3 + 1/a^3. To do this, we can use the identity a^3 + b^3 = (a + b)(a^2 - ab + b^2), where a = a and b = 1/a:

a^3 + (1/a)^3 = (a + 1/a)(a^2 - a(1/a) + (1/a)^2)

a^3 + (1/a)^3 = (a + 1/a)(a^2 - 1 + 1/a^2)

But we know that A + 1/a = 4, so A^2 + 1/a^2 = (A + 1/a)^2 - 2 = 4^2 - 2 = 14. Substituting this in the previous expression gives:

a^3 + (1/a)^3 = (4)(14 - 1) = 52

Finally, substituting in the expression we derived earlier for (a + 1/a)^3 gives:

(a + 1/a)^3 = A^3 + 3A + 3(1/A) + 52

We know that A + 1/a = 4, so substituting this gives:

(a + 1/a)^3 = A^3 + 3(4) + 3(1/4) + 52 = A^3 + 13.75

Therefore, (a + 1/a)^3 = A^3 + 13.75.

Yes, the algebraic expression [tex]3x^(2)+3x^(-3)-2[/tex] is a polynomial.

A polynomial is an algebraic expression consisting of variables and coefficients that involves only the operations of addition, subtraction, and multiplication, as well as non-negative integer exponents. The given algebraic expression satisfies these conditions, so it is a polynomial.

To write the polynomial in standard form, we need to rearrange the terms in descending order of exponents. In this case, the term with the highest exponent is [tex]3x^(2)[/tex], followed by the term with the lowest exponent, [tex]3x^(-3)[/tex], and finally the constant term, -2.

Therefore, the polynomial in standard form is:[tex]3x^(2)+3x^(-3)-2 = 3x^(2)-2+3x^(-3)[/tex] So, the polynomial in standard form is  [tex]3x^(2)-2+3x^(-3)[/tex].

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a. The width of the rectangle is 28 cm

b. The width of the rectangle is 13.8 cm

A rectangle is  with four sides in which two sides are parallel and equal.

a. The width of the rectangle

Let

since the length of the rectangle is 80 cm and the length is 4 less than triple its width, we have that its width is L = 3W - 4

Making W subject of the formula, we have that

W = (L + 4)/3

Since L = 80 cm

W = (L + 4)/3

= (80 cm + 4 cm)/3

= 84 cm/3

= 28 cm

The width is 28 cm

b. The width of the rectangle

Since the length of the rectangle is 66 cm and the length is 3 less than five times its width, we have that its width is L = 5W - 3

Making W subject of the formula, we have that

W = (L + 3)/5

Since L = 66 cm

W = (L + 3)/5

= (66 cm + 3 cm)/5

= 69 cm/5

= 13.8 cm

The width is 13.8 cm

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The division is one of the four basic arithmetic operations in mathematics, along with addition, subtraction, and multiplication. It involves breaking a number or quantity into equal parts, or groups, and determining how many groups or how many items are in each group.

In mathematics, a division sentence is a statement that represents the operation of division. It is typically written in the form of a fraction or using the division symbol, with a dividend (the number being divided) on top and a divisor (the number by which the dividend is being divided) on the bottom. For example, the division sentence 8 ÷ 2 = 4 can also be written as the fraction 8/2 = 4/1.

The result of a division operation is called the quotient.

Division is a fundamental concept in mathematics and is used in many areas of study, including algebra, geometry, and statistics. It is also an important tool in everyday life, such as in calculating the cost per unit of a product or dividing a recipe to adjust the serving size.

Without a specific drawing to refer to, it's difficult to provide a specific explanation of how Adrian used it to solve a division sentence. However, I can provide a general explanation of how a drawing might be used to illustrate or solve a division problem.

One common way to use a drawing to solve a division problem is through the use of equal groups. For example, consider the division problem 12 ÷ 3. To solve this problem, we can draw 12 circles and group them into equal groups of 3. We would then count the number of groups to determine the quotient, which is the answer to the division problem.

Another way to use a drawing to solve a division problem is through the use of a number line. For example, consider the division problem 15 ÷ 5. We can draw a number line and mark the starting point at 0, the ending point at 15, and the intervals at 5. We would then count the number of intervals to determine the quotient, which is the answer to the division problem.

Regardless of the specific method used, a drawing can help to illustrate the concept of division and make it more concrete and visual. It can also be a useful tool for students who are just learning about division or who struggle with more abstract or symbolic representations of mathematical concepts.

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Answer:

Step-by-step explanation:

2). y > - x - 2

    y < - 5x + 2

3). y ≤ [tex]\frac{1}{2}[/tex] x + 2

    y < - 2x - 3

Answer: x=5

Step-by-step explanation:

Answer:

Your typing speed is 82.8 WPM.

Step-by-step explanation:

Lets list was we know:

x = age in years

y = typing speed

We know the equation [tex]y=-1.4x+117.8[/tex] will produce the result for y, the typing speed. If x is the age in years, and you are 25 years old, then all you have to do is substitute 25 into the equation.

[tex]y=-1.4(25)+117.8[/tex]

Evaluate

[tex]y=-35+117.8[/tex]

[tex]y=82.8[/tex]

Your typing speed is 82.8 WPM.

The common ratio of the geometric sequence is 11.

To determine the common ratio r, we can use the formula for the nth term of a geometric sequence. The formula is expressed as;

aₙ = a₁ × r^(n-1)

where a1 is the first term, r is the common ratio, and n is the term number.

We are given that;

We can use these values to write two equations:

aₙ = a₁ × r^(n-1)

a₃ = a₁ × r^(3-1) = 2r² = 242

Solving for r, we get:

r² = 121

r = ±√121

r = ±11

However, we need to determine the sign of the common ratio.

Since the third term is larger than the first term, the common ratio must be positive. Therefore, r = 11.

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probability π/(1-(1-p)(1-π)).

It is given that:Let Py be a discrete distribution on {0,1,2,...} and given Y = y, the conditional distribution of X be the binomial distribution with size y and probability p. We need to show that:(i) if y has the Poisson distribution with mean θ, then the marginal distribution of X is the Poisson distribution with mean pθ;(ii) if Y + r has the negative binomial distribution with size r and probability π, then the marginal distribution of X +r is the negative binomial distribution with size r and probability π/(1 -(1-P)(1 - 7)).Solution:Let us consider each part one by one.(i) If y has the Poisson distribution with mean θ, then the marginal distribution of X is the Poisson distribution with mean pθ.We are given that Y = y, the conditional distribution of X be the binomial distribution with size y and probability p.So, P(X = x | Y = y) = yCxpy(1−p)y−x  ,  x = 0,1,2,...,y.Now, we need to find the marginal distribution of X. We have:P(X = x) = ∑y=P(Y=y)P(X=x|Y=y) = ∑y=P(Y=y)yCxpy(1−p)y−xLet us calculate the above sum using the Poisson distribution of y. For this, we have to calculate the probability P(Y=y).We are given that y has the Poisson distribution with mean θ.So, P(Y=y) = e−θθy/y!∑y=0∞P(Y=y)yCxpy(1−p)y−x=∑y=0∞e−θθy/y!yCxpy(1−p)y−x=px∑y=0∞e−θθy−x/y!(y−x)!p(y−x)(1−p)y−x=px∑k=0∞e−θθk/k!(x+k)!(1−p)k=px∑k=0∞(θ(1−p)x(1−p)k/k!(x+k)!)e−θ(1−p)(1−p)kThe above sum is the sum of terms of the form akk! where ak = (θ(1−p)x(1−p)k/k!(x+k)!). Such a sum can be expressed in the form of the Poisson distribution. Thus we get:P(X = x) = ∑y=P(Y=y)P(X=x|Y=y) = px∑k=0∞(θ(1−p)x(1−p)k/k!(x+k)!)e−θ(1−p)(1−p)k= e−pθ∑k=0∞(pθ(1−p)x(1−p)k/k!(x+k)!)e−pθ(1−p)(1−p)k= e−pθ∑k=0∞Pois(pθ)(x+k)k! (1−p)kWe recognize the above sum as the Poisson distribution with mean pθ. Thus we get:P(X = x) = e−pθ(pθ)x/x!The marginal distribution of X is the Poisson distribution with mean pθ.(ii) If Y + r has the negative binomial distribution with size r and probability π, then the marginal distribution of X +r is the negative binomial distribution with size r and probability π/(1 -(1-P)(1 - 7)).Let us first consider the conditional distribution of X given Y = y. We are given that Y + r has the negative binomial distribution with size r and probability π. This means that the sum of y + r independent and identically distributed Bernoulli random variables each with probability p has the negative binomial distribution with size r and probability π.So, P(X = x | Y = y) = (y+r)xpx(1−p)y+r−x, x = 0,1,2,...,y+r.Now, we need to find the marginal distribution of X + r. We have:P(X + r = k) = ∑y=P(Y=y)P(X+r=k|Y=y) = ∑y=P(Y=y)(y+r)kpr(1−p)y+r−kLet us simplify the above sum. For this, we have to calculate the probability P(Y = y).We are given that Y + r has the negative binomial distribution with size r and probability π.So, P(Y = y) = (y + r - 1)Cyπr(1-π)y, y = 0, 1, 2, …Now, we can express the above sum in the form of the negative binomial distribution. Thus we get:P(X + r = k) = ∑y=P(Y=y)(y+r)kpr(1−p)y+r−k= ∑y=P(Y=y)(y+r-1)Cyπr(1-π)ykpπr(1-π)k-y-r+1= NegBin(k-r+r, π/(1-(1-p)(1-π)))The marginal distribution of X + r is the negative binomial distribution with size r and probability π/(1-(1-p)(1-π)).

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The image of the triangle is to be formed by rotating ΔXYZ 180 degrees about the (2, -3) as shown in the graph.

It deals with the size of geometry, region, and density of the different forms both 2D and 3D.

Triangle XYZ has vertices X(0, 2), Y(4, 4), and Z(3, –1).

If the triangle is ΔXYZ. Then the image of the triangle is to be formed by rotating ΔXYZ 180 degrees about the (2, -3) as shown in the graph.

More about the geometry link is given below.

https://brainly.com/question/7558603