Answer:
m=9
b=-24
simple as that
Step-by-step explanation:
m = 9
y-intercept (x = 0)
y = 9x -24
y = 9(0) - 24
y = -24 = b
#CMIIWA particular two-player game starts with a pile of diamonds and a pile of rubies. On
your turn, you can take any number of diamonds, or any number of rubies, or an equal
number of each. You must take at least one gem on each of your turns. Whoever takes
the last gem wins the game. For example, in a game that starts with 5 diamonds and
10 rubies, a game could look like: you take 2 diamonds, then your opponent takes 7
rubies, then you take 3 diamonds and 3 rubies to win the game.
You get to choose the starting number of diamonds and rubies, and whether you go
first or second. Find all starting configurations (including who goes first) with 8 gems
where you are guaranteed to win. If you have to let your opponent go first, what are
the starting configurations of gems where you are guaranteed to win? If you can’t find
all such configurations, describe the ones you do find and any patterns you see
If your opponent goes first, you are guaranteed to win with 8 gems if
your opponent takes 1, 2, or 3 gems on their first turn.
In general, if there are n gems, you can guarantee a win if your opponent
takes n/2 or fewer gems on their first turn when you go second.
Let's consider the starting configuration of gems with 8 gems total.
If you go first, the maximum number of gems you can take on your first
turn is 4 (either 4 diamonds or 4 rubies or 2 of each).
If you take 4 diamonds, your opponent can take all 4 rubies, leaving you
with no choice but to take the remaining 4 diamonds on your next turn,
which means your opponent will take the last 4 rubies and win. Similarly,
if you take 4 rubies on your first turn, your opponent can take all 4
diamonds and win.
If you take 2 diamonds and 2 rubies on your first turn, your opponent can
mirror your move and take 2 diamonds and 2 rubies, leaving you with 2
diamonds and 2 rubies left. At this point, no matter what you do, your
opponent can take the remaining gems and win.
So, if you go first, there is no way to guarantee a win with 8 gems.
Now let's consider the case where your opponent goes first. If your
opponent takes 1, 2, or 3 gems on their first turn, you can mirror their
move and take the same number of gems, leaving 4, 5, or 6 gems left
respectively.
At this point, no matter what your opponent does, you can take enough
gems to ensure that you take the last gem and win. For example, if there
are 4 gems left, you can take 2 diamonds (or 2 rubies) to leave 2 gems,
and then take the remaining 2 gems on your next turn. Similarly, if there
are 5 gems left, you can take 1 diamond and 1 ruby to leave 3 gems, and
then take the remaining 3 gems on your next turn. And if there are 6
gems left, you can take 2 diamonds and 2 rubies to leave 2 gems, and
then take the remaining 2 gems on your next turn.
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Write the following expression as a single summation in terms of k. m k Σ m + 1 Σ %3D k + 5 k = 1 m + 6 k = 1
The single summation expression in terms of k is:
\sum_[tex]{i=1}^{{m}}[/tex]i(i+1)(i+2) = 2k + 10
What is algebra?
Algebra is a branch of mathematics that deals with mathematical operations and symbols used to represent numbers and quantities in equations and formulas.
We can approach this problem by first expanding the summation expressions on both sides of the equation:
On the left-hand side:
m k Σ m + 1 Σ = ∑[tex]{i=1}^{{m}}[/tex]i{m} i ∑{j=1}^{i+1} j
On the right-hand side:
k + 5 k = 6k
Now, we can combine the two summations on the left-hand side by first fixing the value of i in the inner summation and then summing over all possible values of i:
m k Σ m + 1 Σ = ∑[tex]{i=1}^{{m}}[/tex]i i ∑{j=1}^{i+1} j = ∑_[tex]{i=1}^{{m}}[/tex]i i \left(\frac{(i+1)(i+2)}{2}\right)
Simplifying this expression, we get:
m k Σ m + 1 Σ = \frac{1}{2} \sum_[tex]{i=1}^{{m}}[/tex]ii(i+1)(i+2)
Now, we can express the right-hand side of the equation as a summation in terms of k:
k + 5 k = 6k = \sum_{i=1}^{k+5} 1
Therefore, the original equation can be written as:
\frac{1}{2} \sum_[tex]{i=1}^{{m}}[/tex] i(i+1)(i+2) = \sum_{i=1}^{k+5} 1
Simplifying further, we get:
\frac{1}{2} \sum_[tex]{i=1}^{{m}}[/tex] i(i+1)(i+2) = k + 5
Therefore, the single summation expression in terms of k is:
\sum_[tex]{i=1}^{{m}}[/tex]i(i+1)(i+2) = 2k + 10.
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Find m angle v which is x from the picture
Answer: m∠V = 28°
Step-by-step explanation:
We know that a triangle's angles add up to 180. We will create an equation to solve for x. Then, we will substitute it back into the expression for angle V and simplify.
Given:
(9x - 8) + (2x + 2) + (3x + 4) = 180°
Simplify:
9x - 8 + 2x + 2 + 3x + 4 = 180°
Reorder:
9x + 2x + 3x - 8 + 2 + 4 = 180°
Combine like terms:
14x - 2 = 180°
Add 2 to both sides of the equation:
14x = 182°
Divide both sides of the equation by 13:
x = 13
---
m∠V = 2x + 2
m∠V = 2(13) + 2
m∠V = 28°
For the following variables, determine whether r is a function of s, s is a function of r. or neither. r is the denomination of any piece of U.S. paper currency and s is its thickness. Choose the correct answer below. O A. s is a function of r. OB. Neither r nors are functions of each other. O C. ris a function of s. OD. Both r and s are functions of each other.
The correct answer is: A s is a function of r as the thickness of the paper currency depends on its denomination.
Based on the given information, s is a function of r.
The thickness (s) of any piece of U.S. paper currency is determined by its denomination (r). This means that for a given denomination (r), there is a specific thickness (s) associated with it. However, the reverse may not be true as different denominations of U.S. paper currency can have the same thickness. For example, a $1 bill and a $100 bill may have the same thickness, but they have different denominations.
Therefore, s is a function of r as the thickness of the paper currency depends on its denomination.
Therefore, the correct answer is: A. s is a function of r.
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please answer and il give brainliest
Answer:
4
Step-by-step explanation:
show that each subfield of z contains q
Each subfield of Z, which is the set of integers, contains the field of rational numbers (Q).
To show that each subfield of Z contains Q, we can start by understanding what a subfield is. A subfield of a field is a subset that is also a field, meaning it must satisfy certain properties such as closure under addition, subtraction, multiplication, and division (except for division by zero), among others.
In this case, Z is the set of integers, which includes positive integers, negative integers, and zero. Q, on the other hand, is the set of rational numbers, which includes all numbers that can be expressed as the quotient of two integers, where the denominator is not zero.
Now, let's consider any subfield of Z. Since it is a field, it must contain the integers, including positive integers, negative integers, and zero. Since all integers are rational numbers (they can be expressed as the quotient of themselves divided by 1), any subfield of Z must contain all integers, and therefore it must also contain Q, which is the set of rational numbers.
Therefore, we can conclude that each subfield of Z contains Q, as Q is a subset of Z and is also a field, satisfying the properties of closure under addition, subtraction, multiplication, and division (except for division by zero).
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I think of a number, take away 1 and multiply the result by 3
Answer:
3(x - 1)
Step-by-step explanation:
Let x be the number.
3(x - 1)
Answer:
y= what u get after calculation
x = number that u think
so
y=3(x-1)
Urgently need help!
OAC is a sector of a circle, center O, radius 10m.
BA is the tangent to the circle at point A.
BC is the tangent to the circle at point C.
Angle AOC = 120°
Calculate the area of the shaded region.
Correct to 3 significant figures. (5 marks)
The area of the shaded region is 36.3 to 3 significant figures
What is the area?
A two-dimensional figure's area is the amount of space it takes up. In other terms, it is the amount that counts the number of unit squares that span a closed figure's surface.
Step one: find the two diagonals of the kite.
The Horizontal diagonal can be obtained using the cosine rule:
AC² = OA²- OC² - 2 *OA*OC* cosθ
= 10²+ 10² - 2* 10 *10 * cos(120)
AC² = 200
=> AC=√200 = 14.1
The vertical diagonal of the kite can be obtained by Pythagoras' Theorem:
Please note the law in circle geometry which states that a radius and a tangent always meet at right angles.
This implies that triangle OBC is a right-angled triangle, with angle OCB being 90 degrees, and COB being 60 degrees. This is because the diagonal divides the 120-degree angle into half.
cos(60)= 10/OB
=> OB= 10/ cos(60) = 20 m
Step two: Use the dimensions of the two diagonals of the Kite to find the area:
The area of a Kite is obtained using this formula:
area = pq/2, , where p and q are the two diagonals.
area =( 14.1*20)/2 = 141 m²
Step three: Calculate the area of the sector of the circle.
Area of the sector is obtained using this formula
Area =θ/360 * πr² = 120/360 * 3.14 * 10² = 104.66 m²
Step Four: Subtract the area of the sector from the area of the kite:
Area of the shaded region will be 141 m² - 104.66 m² = 36.34 m²
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Find the general solution to y" + 10y' + 41y = 0. Give your answer as y = In your answer, use c1 and c2 to denote arbitrary constants and x the independent variable. Enter c1 as c1 and c2 as c2.
c1 and c2 are arbitrary constants, and x is the independent variable.
Describe detailed method to find the general solution to the given second-order homogeneous linear differential equation?We first need to find the characteristic equation:
r² + 10r + 41 = 0
Now, we need to find the roots of this quadratic equation. Using the quadratic formula:
r = (-b ± √(b² - 4ac)) / 2a
Here, a = 1, b = 10, and c = 41. Plugging in these values:
r = (-10 ± √(10² - 4(1)(41))) / 2(1)
r = (-10 ± √(100 - 164)) / 2
Since the discriminant (b² - 4ac) is negative, the roots will be complex:
r = (-10 ± √(-64)) / 2
r = -5 ± 4i
Now that we have the complex roots, we can write the general solution as:
y(x) = c1 * e^(-5x) * cos(4x) + c2 * e^(-5x) * sin(4x)
Here, c1 and c2 are arbitrary constants, and x is the independent variable.
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Worth 20 points!!!! Little Maggie is walking her dog, Lucy, at a local trail and the dog accidentally falls 150 feet down a ravine! You must calculate how much rope is needed for the repel line. Use the image below to find the length of this repel line using one of the 3 trigonometry ratios taught (sin, cos, tan). Round your answer to the nearest whole number. The repel line will be the diagonal distance from the top of the ravine to Lucy. The anchor and the repel line meet to form angle A which forms a 17° angle. Include all of the following in your work for full credit.
(a) Identify the correct trigonometric ratio to use (1 point)
(b) Correctly set up the trigonometric equation (1 point)
(c) Show all work solving equation and finding the correct length of repel line. (1 point)
the length of the repel line needed is approximately 44 feet (rounded to the nearest whole number).
what is length ?
Length is a physical dimension that describes the extent of an object or distance between two points. In geometry, length refers to the distance between two points, and it is usually measured in units of length such as meters, centimeters, feet, inches,
In the given question,
(a) The correct trigonometric ratio to use in this problem is the sine ratio, which relates the opposite side to the hypotenuse in a right triangle. In this case, we are given the angle A and we want to find the length of the opposite side, which is the distance from the top of the ravine to Lucy. Therefore, we can use the sine ratio as follows:
sin(A) = opposite/hypotenuse
(b) We can set up the equation using the given information as follows:
sin(17°) = opposite/150
where opposite is the length of the repel line that we want to find.
(c) To solve for the length of the repel line, we can rearrange the equation as follows:
opposite = sin(17°) x 150
opposite = 0.2924 x 150
opposite ≈ 44
Therefore, the length of the repel line needed is approximately 44 feet (rounded to the nearest whole number).
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Then write t2 as a linear combination of the In P2, find the change-of-coordinates matrix from the basis B{1 -5t,-2+t+ 1 1t,1+4t polynomials in B.
t2 as a linear combination of the In P2 can be written as: t^2 = (-1/7)(1 - 5t) - (4/7)(-2 + t + t^2). The change-of-coordinates matrix from B to S is: [ -1/35 2/7 -1/7 ]
[ -1/35 1/7 -4/7 ]
[ -1/35 0 0 ]
Let P1(t) = 1 - 5t and P2(t) = -2 + t + t^2 be the basis polynomials for B.
To write t^2 as a linear combination of P1(t) and P2(t), we need to find constants a and b such that:
t^2 = a P1(t) + b P2(t)
Substituting in the expressions for P1(t) and P2(t), we get:
t^2 = a(1 - 5t) + b(-2 + t + t^2)
Rearranging terms, we get:
t^2 = (b - 5a) t^2 + (t + 5a - 2b)
Equating coefficients of t^2 and t on both sides, we get:
b - 5a = 1
5a - 2b = -2
Solving for a and b, we get:
a = -1/7
b = -4/7
Therefore, we can write t^2 as:
t^2 = (-1/7)(1 - 5t) - (4/7)(-2 + t + t^2)
To find the change-of-coordinates matrix from the basis B to the standard basis S = {1, t, t^2}, we need to express each basis vector of S as a linear combination of the basis polynomials in B.
We have:
1 = -1/35 (9 P1(t) - 20 P2(t))
t = 2/7 P1(t) + 1/7 P2(t)
t^2 = -1/7 P1(t) - 4/7 P2(t)
Therefore, the change-of-coordinates matrix from B to S is:
[ -1/35 2/7 -1/7 ]
[ -1/35 1/7 -4/7 ]
[ -1/35 0 0 ]
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When verifying the stability of the potential coexistence points, you calculated the eigenvalues for each requested point. For x = 8.47*10-8 and the point (30568, 386008), choose the eigenvalue with the larger absolute value. What is the value of this eigenvalue, entering it as a negative number if it is negative? Round your answer to 4 decimal places.
The eigenvalue with the larger absolute value for the Jacobian matrix at the point (30568, 386008) is approximately 5269.407, which is positive. No need to enter it as a negative number.
The system of equations is
f(x,y) = 9x^2 + 3x + y - 30 = 0
g(x,y) = 3x^2 + xy - 10^6 = 0
The Jacobian matrix J is
J(x,y) = [ df/dx df/dy ]
[ dg/dx dg/dy ]
where
df/dx = 18x + 3
df/dy = 1
dg/dx = 6x + y
dg/dy = x
Evaluated at the point (30568, 386008), we have
df/dx = 18(30568) + 3 = 550149
df/dy = 1
dg/dx = 6(30568) + 386008 = 582216
dg/dy = 30568
So, J(30568, 386008) =
[550149 1]
[582216 30568]
The eigenvalues of J(30568, 386008) are the solutions to the characteristic equation
det(J - λI) = 0
where I is the identity matrix and det denotes the determinant.
The characteristic equation is
(550149 - λ)(30568 - λ) - 582216 = 0
Expanding and simplifying this expression, we get
λ^2 - 855717λ + 166573528 = 0
Using the quadratic formula, we get
λ = (855717 ± √(855717^2 - 4(166573528))) / 2
λ ≈ 5269.4073 or λ ≈ 315.5927
The eigenvalue with the larger absolute value is 5269.4073. Since it is positive, we don't need to enter it as a negative number. Rounding to 4 decimal places, we get
5269.4073 ≈ 5269.407
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--The given question is incomplete, the complete question is given
" When verifying the stability of the potential coexistence points, you calculated the eigenvalues for each requested point. For x = 8.47*10-8 and the point (30568, 386008), choose the eigenvalue with the larger absolute value. Here, f(x,y) = 9x^2 + 3x + y - 30 = 0 and g(x,y) = 3x^2 + xy - 10^6 = 0What is the value of this eigenvalue, entering it as a negative number if it is negative? Round your answer to 4 decimal places. Your Answer:"--
WE
L
!
At what rate per cent per annum will $400 yield an interest of $78 in 1/2
years?
Your answer
$400 will yield an interest of $78 in 1/2 years at the rate of 39% per annum. We can use the formula for simple interest to calculate the rate.
How can we use simple interest?Simple interest is calculated based on the initial amount (principal) and time period, without considering any additional interest on the accumulated interest.
Using the formula for simple interest:
Given:
Principal amount (P) = $400
Simple interest (I) = $78
Time (T) = 1/2 years
To calculate the rate (R):
Simple Interest (I) = (Principal amount (P) × Rate (R) × Time (T)) / 100
Plugging in the given values:
$78 = ($400 × R × 1/2) / 100
Multiplying both sides by 100 to get rid of the fraction:
$78 * 100 = $400 * R * 1/2
7800 = $200 * R
Dividing both sides by $200 to isolate R:
R = 7800 / 200
R = 39
Thus, the rate of interest per annum is 39%.
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Find a general solution to the given Cauchy-Euler equation for t > 0.
t2. d2y/dt2+8tdy/dt-18y=0
the general solution is y(t) =
The general solution for the Cauchy-Euler equation is a linear combination of the two solutions:
[tex]y(t) = C_1 * t^{-9} + C_2 * t^2[/tex]
To find the general solution to the given Cauchy-Euler equation for t > 0, first, we'll rewrite the equation using the given terms:
[tex]t^2 \frac{d^2y}{dt^2}+ 8t(dy/dt) - 18y = 0[/tex]
Now, we'll use the substitution y(t) = t^m, where m is a constant, to transform the equation into a simpler form:
By using this substitution, we get:
[tex]dy/dt = m * t^{m-1}\\d^{2}y/dt^2= m * (m-1) * t^{m-2}[/tex]
Substitute these expressions back into the original Cauchy-Euler equation:
[tex]t^2 * m * {m-1} * t^{m-2}+ 8t * m * t^{m-1} - 18 * t^m = 0[/tex]
Simplify by dividing both sides by t^(m-2):
[tex]m * (m-1) + 8m - 18t^2 = 0[/tex]
Now, we have a characteristic equation in terms of m:
[tex]m^2 + 7m - 18 = 0[/tex]
Factoring this equation gives:
(m+9)(m-2) = 0
This yields two possible values for m: m1 = -9, m2 = 2
Therefore, the general solution for the Cauchy-Euler equation is a linear combination of the two solutions:
[tex]y(t) = C_1 * t^{-9} + C_2 * t^2[/tex]
Where C1 and C2 are constants determined by any initial conditions.
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3. Please write down the following equations in expanded forms (by replacing i,j,k,... by 1, 2,3):
3.1) Aijb j + fi =0
3.2) Aij
3.3) Aikk = Bij + Ckkδ ij = Bimm
The expanded form of equations, 3.1 is A11b1 + A12b2 + A13b3 + f1 = 0, A21b1 + A22b2 + A23b3 + f2 = 0, A31b1 + A32b2 + A33b3 + f3 = 0, 3.2 is A11, A12, A13, A21, A22, A23, A31, A32, and A33 and 3.3 is A11δ11 + A22δ22 + A33δ33 = B11m + B22m + B33m, where δ is the Kronecker delta function.
In mathematics and science, equations are frequently expressed in a compact form to represent complicated systems or connections. However, to comprehend their separate components or solve them numerically, these equations must frequently be expanded. To extend the equations and describe them more thoroughly, we substituted the variables i, j, and k with their corresponding values 1, 2, and 3.
We have enlarged the matrix equation Aijbj + fi = 0 in equation 3.1 to reflect three different equations, each corresponding to a row in the matrix. This allows us to separately solve the variables in each row and derive a solution for the full matrix.
We enlarged the equation Aikk = Bij + Ckkδij = Bimm in equation 3.3 to represent three independent equations, each corresponding to a diagonal element in the matrix. Here, δij is the Kronecker delta, which allows us to distinguish between diagonal and off-diagonal components. This is frequently beneficial in solving matrices-based problems since diagonal elements have specific features and can be solved more readily than off-diagonal elements.
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Graph the integrand, and use area to evaluate the definite integral ∫4−4√16−x2dx.The value o f the definite integral ∫4−4√16−x2dx. as determined by the area under the graph of the integral, is _____.(Type an exact answer, using n as needed)
The value of the definite integral ∫(4 - 4√(16 - x^2)) dx, as determined by the area under the graph of the integral from x = -4 to x = 4, is 8π.
To evaluate the definite integral ∫(4 - 4√(16 - x^2)) dx:
We will first graph the integrand and then find the area under the curve.
Step 1: Graph the integrand
The integrand function is f(x) = 4 - 4√(16 - x^2).
This represents a semicircle with a radius of 4 and centered at the origin (0, 4).
The function is transformed from the standard semicircle equation by subtracting 4 from the square root term.
Step 2: Determine the limits of integration
The given integral is a definite integral with limits -4 to 4.
This means that we will find the area under the curve of the function f(x) from x = -4 to x = 4.
Step 3: Calculate the area under the curve
Since the function represents a semicircle, we can find the area of the whole circle and then divide by 2.
The area of a circle is given by A = πr^2, where r is the radius. In our case, r = 4.
A = π(4^2) = 16π
Now, we'll divide the area by 2 to get the area of the semicircle.
Area of semicircle = (1/2) * 16π = 8π
Step 4: Determine the value of the definite integral
The value of the definite integral ∫(4 - 4√(16 - x^2)) dx, as determined by the area under the graph of the integral from x = -4 to x = 4, is 8π.
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evaluate the iterated integral. /3 0 9 0 y cos(x) dy dx
The iterated integral evaluates to approximately 37.45.
To evaluate the iterated integral ∫(from 0 to 3) ∫(from 0 to 9) y*cos(x) dy dx:
1. Start with the inner integral, which is with respect to y: ∫(from 0 to 9) y*cos(x) dy. Integrate y, giving (1/2)y^2*cos(x). Evaluate this from y=0 to y=9, resulting in (1/2)*81*cos(x).
2. Now, move to the outer integral, which is with respect to x: ∫(from 0 to 3) (1/2)*81*cos(x) dx. Integrate cos(x), giving 40.5*sin(x). Evaluate this from x=0 to x=3, resulting in 40.5*(sin(3) - sin(0)).
3. Finally, calculate the value: 40.5*(sin(3) - 0) ≈ 37.45.
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indira makes a box-and-whisker plot of her data. she finds that the distance from the minimum value to the first quartile is greater than the distance between the third quartile and the maximum value. which is most likely true? the mean is greater than the median because the data is skewed to the right.
The most likely true statement is that the median is greater than the mean because the data is skewed to the left.
Based on the information provided, Indira makes a box-and-whisker plot of her data and finds that the distance from the minimum value to the first quartile is greater than the distance between the third quartile and the maximum value. Which is most likely true? The answer is: the median is greater than the mean because the data is skewed to the left.
Here's a step-by-step explanation,
1. The distance from the minimum value to the first quartile being greater than the distance between the third quartile and the maximum value indicates that there is more data spread out on the left side of the plot.
2. This spread causes the data to be skewed to the left.
3. When data is skewed to the left, the median (Q2) is typically greater than the mean (average), as the mean gets pulled towards the longer tail on the left side.
So, the most likely true statement is that the median is greater than the mean because the data is skewed to the left.
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RSM, HELP:
FILL IN THE GRAPH
Answer:
see attached
Step-by-step explanation:
You want the empty cells of the given table filled in.
SlopeThe differences between the first In values are ...
15 -7 = 8
21 -15 = 6
The corresponding differences between the Out values are ...
32 -16 = 16
44 -32 = 12
The ratios of Out differences to In differences are ...
16/8 = 2
12/6 = 2
These are constant, so we can conclude the relation is linear with a slope of m = 2.
InterceptWe can find the y-intercept by ...
b = y -mx
b = 16 -2(7) = 2 . . . . . . using (x, y) = (7, 16) and m=2
RelationThen the equation of the output (y) in relation to the input (x) is ...
y = mx +b
y = 2x +2 . . . . . . . . . . . . . . table entry on 4th line from the bottom
Solving for x, we get ...
y -2 = 2x
(y -2)/2 = x
This tells us the input needed to give an output of y is (y -2)/2, the entry in the table on the 3rd line from the bottom.
Empty cellsWe can use the equation for y when In is given:
2(25) +2 = 522(x) +2 = 2x +22(2x) +2 = 4x +22(x +3) +2 = 2x +6 +2 = 2x +8And we can use the equation for x when Out is given:
(22 -2)/2 = 20/2 = 10 . . . input value for output = 22(y -2)/2 . . . . . . . . . . . . . . input value for output = yThe completed table is attached.
<95141404393>
A study was conducted to determine whether there was a difference in fatigue between three groups of subjects. What test would be most appropriate to test this question?Group of answer choicesa) Central tendencyb) Analysis of variancec) p valued) Pearson correlation
The correct answer is (b) Analysis of variance.
The most appropriate test to determine if there is a difference in fatigue between three groups of subjects is the analysis of variance (ANOVA) test. ANOVA is a statistical method used to compare the means of three or more groups to determine if there are significant differences between them.
In this case, the three groups of subjects represent different levels of the independent variable (such as different treatments or conditions), and the dependent variable is fatigue. By performing an ANOVA test, we can determine if there is a significant difference in the mean fatigue scores between the three groups. If the ANOVA test shows that there is a significant difference, further post-hoc tests can be performed to determine which groups differ significantly from each other.
Therefore, the correct answer is (b) Analysis of variance.
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In a hostel 150 students have food enough for 90 days how many students should be added in the hostel so that the food is enough for only 75 days ?
30 students needs to be added for the food to be enough for 75 days
How to calculate the number of students that can be fed for 75 days?A hostel contains 150 students
They have food that will last them for 90 days
If the food is supposed to last for 75 days, the number of students that will be added can be calculated as follows
150= 90
1= x
cross multiply
x= 150×90
x= 13,500
= 13500/75
= 180
180 students will be fed for 75 days
We initially had 150 students, subtract 150 from 180
180-150
= 30
Hence 30 students needs to be added so the food lasts for 75 days
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The graph of f(x) and (x) are shown below. For what interval is the value of (f-g) (x)
The interval the value of the function (f - g)(x) is negative is (-∞, 2]
What is a function?A function is a rule or definition that maps an input variable unto an output such that each input has exactly one output.
The equations on the possible graphs in the question, obtained from a similar question posted online are;
f(x) = x - 3
g(x) = -0.5·x
(f - g)(x) = x - 3 - (-0.5·x) = 1.5·x - 3
(f - g)(x) = 1.5·x - 3
Therefore; The x-intercept of the function (f - g)(x) = 1.5·x - 3 is; (f - g)(x) = 0 1.5·x - 3
1.5·x - 3 = 0
1.5·x = 3
x = 3/1.5 = 2
x = 2
The y-intercept is the point where, x = 0, therefore;
(f - g)(0) = 1.5×0 - 3 = -3
The interval the function is negative is therefore;
-∞ < x ≤ 2, which is (-∞, 2]The equations of the possible graphs of the function, obtained from a question posted online are;
f(x) = x - 3, g(x) = -0.5·x
The interval the function (f - g)(x) is negative is required
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Britney is buying a shirt and a hat at the mall. The shirt costs $34.94, and the hat costs $19.51. If Britney gives the sales clerk $100.00, how much change should she receive? (Ignore sales tax.)
CODES Use the following information to solve. A bank gives each new customer a 4-digit code number which
allows the new customer to create their own password. The code number is assigned randomly from the digits 1, 3,
5, and 7, and no digit is repeated.
8. What is the probability that the code number for a new customer will begin with a 7?
Answer:
Step-by-step explanation: There are four possible digits that the code number can begin with: 1, 3, 5, or 7. Since each of these digits is equally likely to be selected, the probability of the code number beginning with a 7 is 1/4 or 0.25. Therefore, the probability that the code number for a new customer will begin with a 7 is 0.25 or 25%.
Kiran has 16 red balloons and 32 white
balloons. Kiran divides the balloons into
8 equal bunches so that each bunch has
the same number of red balloons and
the same number of white balloons.
The total number of balloons is 16+32. Write an equivalent expression that
shows the number of red and white balloons in each bunch.
Use the form a(b + c) to write the equivalent expression, where a represents the
number of bunches of balloons.
Enter an equivalent expression in the box.
16+32 =
Answer: 2 red balloons and 4 white balloons in each bunch
Step-by-step explanation:
divide 16/8 = 2 balloons in each bunch
divide 32/8 = 4 balloons in each bunch
Every year, Silas buys fudge at the state fair.He buys two types: peanut butter and chocolate.This year he intends to
buy $24 worth of fudge.If chocolate costs $4 per pound and peanut butter costs $3 per pound.
what are the different combinations of fudge that he can purchase if he only buys whole pounds of fudge?
O Chocolate
8
4
0
Chocolate
0
O Chocolate Peanut Butter
1
2
3
3
6
Peanut Butter
O Chocolate
6
3
1
0
3
6
6
3
0
Peanut Butter
8
0
Peanut Butter
1
2
3
The different combinations of fudge that Silas can purchase are:
8 pounds of peanut butter fudge and 0 pounds of chocolate fudge
6 pounds of peanut butter fudge and 4 pounds of chocolate fudge
4 pounds of peanut butter fudge and 8 pounds of chocolate fudge
2 pounds of peanut butter fudge and 12 pounds of chocolate fudge
0 pounds of peanut butter fudge and 16 pounds of chocolate fudge
How to find the different combinations of fudge that he can purchase if he only buys whole pounds of fudgeChocolate (x) Peanut Butter (y) Cost
0 8 $24
4 6 $24
8 4 $24
12 2 $24
16 0 $24
We can see that there are five different combinations of fudge that Silas can purchase if he only buys whole pounds of fudge:
8 pounds of peanut butter fudge and 0 pounds of chocolate fudge
6 pounds of peanut butter fudge and 4 pounds of chocolate fudge
4 pounds of peanut butter fudge and 8 pounds of chocolate fudge
2 pounds of peanut butter fudge and 12 pounds of chocolate fudge
0 pounds of peanut butter fudge and 16 pounds of chocolate fudge
We can also verify that the cost of each combination is $24.
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the radius of a semicircle is 3 millimeters, whats the semicircles area?
Answer:
14.1mm² (to 1 d.p)
Step-by-step explanation:
area of a circle = πr²
so therefore the area of a semicircle is πr²/2 (because a semicircle is half of a circle)
radius = 3mm
area = π×3²/2
=9/2π
=14.13716....
=14.1mm² (to 1 d.p)
Use the Limit comparison test to determine the convergence or divergence of the series.[infinity]∑n=11n√n2+5
By Limit comparison test the series ∞∑n=11n√n²+5 converges.
To use the limit comparison test, we need to find a series whose convergence or divergence is known and that is similar to the given series.
Let's consider the series ∞∑n=11n√n²+5 and choose a series that we know converges, such as ∞∑n=1 1/n².
We can now take the limit as n approaches infinity of the ratio of the nth term of the given series to the nth term of the chosen series:
limₙ→∞ (n√(n²+5))/(1/n²)
Simplifying the expression inside the limit, we get:
limₙ→∞ (n√(n²+5))/(1/n²) = lim(n→∞) n³√(1+5/n²)/1 = lim(n→∞) n³/√(n⁶+5n⁴)
Using L'Hopital's rule, we can take the derivative of the numerator and denominator separately with respect to n to get:
limₙ→∞n³/√(n⁶+5n⁴) = lim(n→∞) 3n²/3n⁵/²= lim(n→∞) 3n¹/²)/3n⁵/²) = 0
Since the limit is finite and nonzero, the given series and the chosen series have the same convergence behavior. Therefore, since we know that ∞∑n=1 1/n² converges (by the p-series test with p=2),
we can conclude that the given series ∞∑n=11n√n²+5 also converges.
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What is the answer to this problem -13c+8-18c+5 ?
Answer:
-31 c + 13
Step-by-step explanation:
-13c+8-18c+5
combine like terms
-18c and -13c combined is -31c
8 + 5 = 13
-31 c + 13
Answer
-31c+13 is your answer (see explanation below!)
Step-by-step explanation:
1) Add the numbers:
[tex]-13c + 8 - 18c + 5\\-13c + 13 -18c\\[/tex]
2) Combine like terms:
[tex]-13c+13-18c\\-31c+13\\[/tex]
[tex]A: -31c+13[/tex]
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A fair coin is tossed four times, and the random variable X is the number of heads in the first three tosses and the random variable Y is the number of heads in the last three tosses. (a) What is the joint probability mass function of X and Y ? (b) What are the marginal probability mass functions of X and Y ? (c) Are the random variables X and Y independent? (d) What are the expectations and variances of the random variables X and Y ? (e) If there is one head in the last three tosses, what is the conditional probability mass function of X? What are the conditional expectation and variance of X?
(a) The joint probability mass function of X and Y is:
P(X=3,Y=3) = 1/16; P(X=2,Y=3) = 1/16; P(X=2,Y=2) = 2/16; P(X=2,Y=1) = 1/16
(b) The marginal probability mass functions of X and Y are:
P(X=0) = 6/16, P(X=1) = 5/16, P(X=2) = 4/16, P(X=3) = 1/16
(c) X and Y are not independent.
(d) E(X) = 1.25; Var(X) = 0.9375; E(Y) = 1.25; Var(Y) = 0.9375
(e) P(X=0 | Y=1) = 0.2
(a) To find the joint probability mass function of X and Y, we need to consider all possible outcomes of the first four coin tosses and calculate the probability of each combination of values for X and Y. Let H denote heads and T denote tails. Then the possible outcomes of the first four tosses and their corresponding values of X and Y are:
HHHT: X = 3, Y = 3
HHTH: X = 2, Y = 3
HTHH: X = 2, Y = 2
THHH: X = 2, Y = 1
HHTT: X = 2, Y = 2
HTHT: X = 1, Y = 3
HTTH: X = 1, Y = 2
THHT: X = 1, Y = 1
TTHH: X = 1, Y = 0
HTTT: X = 1, Y = 1
THTH: X = 0, Y = 3
TTHT: X = 0, Y = 2
TTTH: X = 0, Y = 1
TTTT: X = 0, Y = 0
The probability of each outcome can be calculated as (1/2)⁴ = 1/16, since each toss is equally likely to be heads or tails. Therefore, the joint probability mass function of X and Y is:
P(X=3,Y=3) = 1/16
P(X=2,Y=3) = 1/16
P(X=2,Y=2) = 2/16
P(X=2,Y=1) = 1/16
P(X=1,Y=3) = 1/16
P(X=1,Y=2) = 2/16
P(X=1,Y=1) = 1/16
P(X=1,Y=0) = 1/16
P(X=0,Y=3) = 1/16
P(X=0,Y=2) = 1/16
P(X=0,Y=1) = 2/16
P(X=0,Y=0) = 1/16
(b) The marginal probability mass functions of X and Y are:
P(X=x) = ∑y P(X=x, Y=y) for x = 0,1,2,3
P(Y=y) = ∑x P(X=x, Y=y) for y = 0,1,2,3
Using the joint probability mass function from part (a), we get:
P(X=0) = 6/16, P(X=1) = 5/16, P(X=2) = 4/16, P(X=3) = 1/16
P(Y=0) = 6/16, P(Y=1) = 5/16, P(Y=2) = 4/16, P(Y=3) = 1/16
(c) To check if X and Y are independent, we need to compare the joint probability mass function from part (a) to the product of the marginal probability mass functions:
P(X=x, Y=y) ≠ P(X=x) * P(Y=y) for some values of x and y
For example, we have:
P(X=2, Y=2) = 2/16 ≠ (4/16) * (4/16) = P(X=2) * P(Y=2)
Therefore, X and Y are not independent.
(d) The expected value of X is:
E(X) = ∑x x * P(X=x) = 0*(6/16) + 1*(5/16) + 2*(4/16) + 3*(1/16) = 1.25
The variance of X is:
Var(X) = [tex]E(X^2) - (E(X))^2[/tex]
[tex]= \sum x x^2 * P(X=x) - (E(X))^2 = 0^2*(6/16) + 1^2*(5/16) + 2^2*(4/16) + 3^2*(1/16) - 1.25^2 = 0.9375[/tex]
Similarly, the expected value and variance of Y are:
E(Y) = ∑y y * P(Y=y) = 0*(6/16) + 1*(5/16) + 2*(4/16) + 3*(1/16) = 1.25
Var(Y) = [tex]E(Y^2) - (E(Y))^2[/tex] = [tex]\sum y y^2 * P(Y=y) - (E(Y))^2 = 0^2*(6/16) + 1^2*(5/16) + 2^2*(4/16) + 3^2*(1/16) - 1.25^2 = 0.9375[/tex]
(e) If there is one head in the last three tosses, the conditional probability mass function of X is:
P(X=x | Y=1) = P(X=x, Y=1) / P(Y=1) for x = 0,1,2,3
From the joint probability mass function in part (a), we have:
P(X=0, Y=1) = 1/16, P(X=1, Y=1) = 1/16, P(X=2, Y=1) = 1/16, P(X=3, Y=1) = 2/16
P(Y=1) = 5/16
Using these values, we get:
P(X=0 | Y=1) = (1/16) / (5/16) = 0.2
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