Answer:
Step-by-step explanation:
To find the value of y when x = 3 in the equation y = -2x + 15, we substitute x = 3 into the equation and solve for y:
y = -2(3) + 15
y = -6 + 15
y = 9
Therefore, when x = 3, y = 9.
A group of students wants to find the diameter
of the trunk of a young sequoia tree. The students wrap a rope around the tree trunk, then measure the length of rope needed to wrap one time around the trunk. This length is 21 feet 8 inches. Explain how they can use this
length to estimate the diameter of the tree trunk to the
nearest half foot
The diameter of the tree trunk is 6.5 feet (to the nearest half-foot).
Given: Length of the rope wrapped around the tree trunk = 21 feet 8 inches.How the group of students can use this length to estimate the diameter of the tree trunk to the nearest half-foot is described below.Using this length, the students can estimate the diameter of the tree trunk by finding the circumference of the tree trunk. For this, they will use the formula of the circumference of a circle i.e.,Circumference of the circle = 2πr,where π (pi) = 22/7 (a mathematical constant) and r is the radius of the circle.In this question, we are given the length of the rope wrapped around the tree trunk. We know that when the rope is wrapped around the tree trunk, it will go around the circle formed by the tree trunk. So, the length of the rope will be equal to the circumference of the circle (formed by the tree trunk).
So, the formula can be modified asCircumference of the circle = Length of the rope around the tree trunkHence, from the given length of rope (21 feet 8 inches), we can calculate the circumference of the circle formed by the tree trunk as follows:21 feet and 8 inches = 21 + (8/12) feet= 21.67 feetCircumference of the circle = Length of the rope around the tree trunk= 21.67 feetTherefore,2πr = 21.67 feet⇒ r = (21.67 / 2π) feet= (21.67 / (2 x 22/7)) feet= (21.67 x 7 / 44) feet= 3.45 feetTherefore, the radius of the circle (formed by the tree trunk) is 3.45 feet. Now, we know that diameter is equal to two times the radius of the circle.Diameter of the circle = 2 x radius= 2 x 3.45 feet= 6.9 feet= 6.5 feet (nearest half-foot)Therefore, the diameter of the tree trunk is 6.5 feet (to the nearest half-foot).
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Georgia opened a large bag of Sour Patch Kids and recorded the colors and their
frequencies, as shown in the table below.
Color
Frequency
Red
26
Yellow
15
Green
44
Blue
37
1) Show your work to determine the total number of outcomes.
2) Show your work to determine the RELATIVE FREQUENCY, in any format
(fraction, decimal, or percent), of selecting a Green Sour Patch Kid from the bag.
3) Use the RELATIVE FREQUENCY, determined from #2, to approximate the
probability of selecting a Green Sour Patch Kid from a bag of 500 pieces.
1.) There are 122 Sour Patch Kids in the bag, 2.) the relative frequency of selecting a Green Sour Patch Kid is approximately 0.3607 (3.)the approximate probability of selecting a Green Sour Patch Kid from a bag of 500 pieces is 180.35.
1.)To determine the total number of outcomes, we sum up the frequencies of all the colors:
Total number of outcomes = Frequency of Red + Frequency of Yellow + Frequency of Green + Frequency of Blue
= 26 + 15 + 44 + 37
= 122
So, there are 122 Sour Patch Kids in the bag.
2.)To determine the relative frequency of selecting a Green Sour Patch Kid, we divide the frequency of Green by the total number of outcomes:
Relative Frequency = Frequency of Green / Total number of outcomes
= 44 / 122
≈ 0.3607 (rounded to four decimal places)
So, the relative frequency of selecting a Green Sour Patch Kid is approximately 0.3607.
3.)Using the relative frequency determined in #2, we can approximate the probability of selecting a Green Sour Patch Kid from a bag of 500 pieces. Since the relative frequency represents the proportion of Green Sour Patch Kids in the bag, we can multiply it by the total number of pieces in the bag:
Probability = Relative Frequency * Total number of pieces
= 0.3607 * 500
= 180.35
Therefore, the approximate probability of selecting a Green Sour Patch Kid from a bag of 500 pieces is 180.35 out of 500, or approximately 0.3617 (or 36.17%) when expressed as a decimal or percentage, respectively.
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A set of 32761 pigeons flies home, each to one of 14 gigantic pigeonholes. What is the smallest number of pigeons possible in the pigeonhole that contains the most number of pigeons? Give an exact integer. No credit for being close (that indicates a misunderstanding of the concept).
The smallest number of pigeons in the pigeonhole that contains the most number of pigeons is 2341.
To determine the smallest number of pigeons in the pigeonhole that contains the most number of pigeons, we can use the pigeonhole principle.
The pigeonhole principle states that if you distribute more than m objects into m pigeonholes, then at least one pigeonhole must contain more than one object.
In this case, we have 32761 pigeons and 14 pigeonholes. To minimize the number of pigeons in the pigeonhole that contains the most, we want to distribute the pigeons as evenly as possible.
Dividing 32761 by 14, we get:
32761 / 14 = 2340 remainder 1
This means we can evenly distribute 2340 pigeons to each of the 14 pigeonholes, leaving 1 pigeon remaining.
To minimize the number of pigeons in the pigeonhole that contains the most, we distribute the remaining 1 pigeon to one of the pigeonholes, resulting in the exact integer is 2341.
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say that z is a continuous random variable with a mean of 15 and a standard deviation of 7. write this distribution out in formal notation.
The formal notation for the distribution of the continuous random variable Z in this case is Z ~ N(15, 49).
In formal notation, the distribution of the continuous random variable Z can be written as Z ~ N(μ, σ^2), where N represents the normal distribution, μ represents the mean, and σ^2 represents the variance.
Given that Z has a mean of 15 and a standard deviation of 7, we know that μ = 15 and σ = 7. The variance can be calculated as σ^2 = 49.
Thus, the formal notation for the distribution of the continuous random variable Z in this case is Z ~ N(15, 49).
This means that the values of Z are normally distributed around the mean of 15, with the spread of the distribution determined by the standard deviation of 7. This notation is commonly used in probability theory and statistics to represent the properties of a given random variable.
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The distribution of the continuous random variable z with a mean of 15 and a standard deviation of 7 can be written as:
z ~ N(15, 49)
where N represents the normal distribution, 15 represents the mean, and 49 represents the variance (which is equal to the square of the standard deviation).
In this case, the mean (µ) is 15 and the standard deviation (σ) is 7. Therefore, the formal notation for this distribution is:
z ∼ N(µ, σ²)
where N represents a normal distribution. Plugging in the given values, we get:
z ∼ N(15, 7²)
So the distribution can be written as:
z ∼ N(15, 49)
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Rachel the Eagle flies at a rate of 1 mile per hour, as modeled by the equation y=x. She increases her rate by 3 miles per hour. Plot two ordered pairs showing the distances she will fly at 2 hours and 3 hours, respectively, at her new rate
The ordered pair is (3, 12)Hence, the two ordered pairs are (2, 8) and (3, 12).
Given that Rachel the Eagle flies at a rate of 1 mile per hour and is modeled by the equation y = x. She increases her rate by 3 miles per hour and we are to plot two ordered pairs showing the distances she will fly at 2 hours and 3 hours, respectively, at her new rate.
We know that Rachel’s new rate is 1 + 3 = 4 miles per hour.We are to find the distance she will fly at 2 hours and 3 hours at her new rate.Using the formula for distance, d = rt (distance = rate x time)We have the following;For 2 hours,d = rt= 4 x 2 = 8 miles∴ Ordered pair = (2, 8)For 3 hours,d = rt= 4 x 3 = 12 miles
∴ Ordered pair = (3, 12)Therefore, the two ordered pairs are (2, 8) and (3, 12).Hence, our solution is complete. We can present this solution in about 150 words as follows;Rachel the Eagle is known to fly at a rate of 1 mile per hour. This is modeled by the equation y = x.
If she increases her rate by 3 miles per hour, we can calculate the new rate as follows:New rate = 1 + 3 = 4 miles per hour.
To determine the distance Rachel will fly at 2 hours and 3 hours, we can use the formula for distance, d = rt. By substitution of the new rate and given time, we obtain the following:For 2 hours,d = rt= 4 x 2 = 8 miles
Therefore, the ordered pair is (2, 8)For 3 hours,d = rt= 4 x 3 = 12 milesTherefore, the ordered pair is (3, 12)Hence, the two ordered pairs are (2, 8) and (3, 12).
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Write And Solve A Story Problem With 6 Divided By 6
To write and solve a story problem with 6 divided by 6, we need to come up with a situation in which 6 is divided equally among 6 parts. For example:
There are 6 pieces of candy to be divided equally among 6 children. Solution: To solve this problem, we can simply divide the total number of candies (6) by the number of children (6):6 ÷ 6 = 1Therefore, each child will receive 1 piece of candy. Another way to solve this problem is to use multiplication. Since division is the inverse of multiplication, we can think of this problem as:6 ÷ 6 = x can be rewritten as 6 = x × 6, where x is the number of candies each child receives. Then we can solve for x by dividing both sides by 6:x = 6 ÷ 6x = 1Therefore, each child will receive 1 piece of candy.
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linear polystyrene has phenyl groups that are attached to alternate not adjacent carbons of the polymer chain. Explain the mechanistic basis for this fact
The mechanistic basis for linear polystyrene having phenyl groups attached to alternate carbons of the polymer chain is due to the nature of the polymerization reaction, specifically free-radical polymerization.
1. Free-radical polymerization of styrene starts with the initiation step, where a free radical initiator generates a reactive radical site.
2. The reactive radical site reacts with the double bond of the styrene monomer, forming a new radical site on the styrene molecule.
3. This new radical site on the styrene molecule can now react with another styrene monomer, effectively joining them together.
4. As the radical site is always at the end of the growing polymer chain, the phenyl groups of each added styrene monomer will be attached to alternate carbons. This occurs because the reactive site is situated between the phenyl group and the double bond in the monomer, creating a zigzag pattern as the chain grows.
Conclusion:
The attachment of phenyl groups to alternate carbons of the polymer chain in linear polystyrene can be attributed to the free-radical polymerization mechanism. The reactive radical site, created during the polymerization, allows the phenyl groups to be connected in an alternating pattern along the chain.
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Circle A has twice the radius of circle B. Which of the following is true of the ratio of the circumference to the diameter of these two circles?
a. The ratio of circle A is twice the ratio of circle B.
b. The ratio of circle A is half the ratio of circle B.
c. The ratio of circle A is equal to the ratio of circle B.
d. It is impossible to compare these ratios without more information.
the correct answer is (c) The ratio of circle A is equal to the ratio of circle B, as the ratio of the circumference to the diameter is the same for both circles.
In a circle, the ratio of the circumference to the diameter is constant and is denoted by the mathematical constant π (pi), which is approximately equal to 3.14159. This means that for any circle, regardless of its size or radius, the ratio of the circumference to the diameter will always be the same.
Since circle A has twice the radius of circle B, it means that the circumference of circle A will be twice the circumference of circle B. Similarly, the diameter of circle A will also be twice the diameter of circle B. Therefore, when we calculate the ratio of the circumference to the diameter for both circles, we will obtain the same value, which is π.
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use a taylor polynomial centered at x=0 to estimate ln(1.35) to within 0.01.
To estimate ln(1.35) to within 0.01 using a Taylor polynomial centered at x=0, we can use the formula for the Taylor series expansion of ln(x+1):
ln(x+1) = x - x^2/2 + x^3/3 - x^4/4 + ...
Plugging in x=0.35, we get:
ln(1.35) = 0.35 - 0.35^2/2 + 0.35^3/3 - 0.35^4/4 + ...
To determine how many terms we need to include to get an estimate within 0.01, we can use the remainder term of the Taylor series expansion, which is given by:
Rn(x) = f^(n+1)(c) * (x-a)^(n+1) / (n+1)!
where f^(n+1)(c) is the (n+1)th derivative of f evaluated at some point c between a and x.
For ln(x+1), the (n+1)th derivative is given by:
f^(n+1)(x) = (-1)^n * n! / (x+1)^(n+1)
Using this formula, we can find an upper bound on the remainder term for n=4 (since we need to include up to the x^4 term in the Taylor series) and x=0.35:
|R4(0.35)| <= 4! * 0.35^5 / 5! = 0.000091125
This means that if we include the x^4 term in our estimate, the error will be no larger than 0.000091125. To ensure that our estimate is within 0.01, we need to include enough terms so that the x^5 term and higher are negligible compared to the error bound. Since the terms are decreasing in magnitude, we can stop adding terms once the next term is smaller than the error bound.
Calculating the terms of the Taylor series up to x^4, we get:
ln(1.35) ≈ 0.35 - 0.35^2/2 + 0.35^3/3 - 0.35^4/4
= 0.3228020833
The next term, 0.35^5/5, is approximately 0.004697917, which is larger than our error bound of 0.000091125. Therefore, we need to include the next term, which is -0.35^6/6, to get a more accurate estimate.
Adding this term, we get:
ln(1.35) ≈ 0.35 - 0.35^2/2 + 0.35^3/3 - 0.35^4/4 - 0.35^6/6
= 0.3229268394
This estimate is within 0.01 of the true value of ln(1.35), so we can be confident that it is accurate.
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Lee marks sixths on a number line. He
writes just before 1. What fraction does
he write on the first mark to the right of 17
Common Core Assessment
14. Divide Katrina
To determine the fraction that Lee writes on the first mark to the right of 17, we need to understand the numbering pattern and the position of the marks.
If Lee marks sixths on the number line, it means that the interval between each mark is 1/6.
Starting from 0, the first mark to the right of 17 would be located at 18.
To find the fraction written on this mark, we can calculate the difference between 18 and 17 and express it as a fraction of the interval between each mark (1/6).
18 - 17 = 1
Therefore, the fraction that Lee writes on the first mark to the right of 17 is 1/6.
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Determine if the following functions T : R2 R2 are one-to-one and/or onto. (Select all that apply.) (a) T(x, y)-(2x, y) one-to-one onto U neither (b) T(x, y) -(x4, y) one-to-one onto neither one-to-one onto U neither (d) T(x, y) = (sin(x), cos(y)) one-to-one onto U neither
So there are Output pairs that cannot be obtained for any input pair.
(a) T(x, y) = (2x, y)
This function is one-to-one but not onto. It is one-to-one because different input pairs (x1, y1) and (x2, y2) will always result in different output pairs (2x1, y1) and (2x2, y2). However, it is not onto because for any y ≠ 0, there is no input pair (x, y) that maps to the output pair (0, y).
(b) T(x, y) = (x^4, y)
This function is onto but not one-to-one. It is onto because for any given output pair (a, b), we can find an input pair (x, y) such that T(x, y) = (a, b) by taking the fourth root of a for x and setting y to b. However, it is not one-to-one because different input pairs can result in the same output pair. For example, T(1, 2) = T(-1, 2) = (1, 2).
(c) T(x, y) = (sin(x), cos(y))
This function is neither one-to-one nor onto. It is not one-to-one because different input pairs can result in the same output pair due to the periodic nature of sine and cosine functions. For example, T(0, 0) = T(2π, 0) = (0, 1). It is also not onto because the range of the function is limited to the interval [-1, 1] for both x and y, so there are output pairs that cannot be obtained for any input pair.
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T(x, y) = (2x, y) is one-to-one and onto.
To show one-to-one, assume T(a, b) = T(c, d). Then we have (2a, b) = (2c, d), which implies a = c and b = d.
To show onto, we need to show that for any (x, y) in R2, there exists (a, b) in R2 such that T(a, b) = (x, y). If we take (a, b) = (x/2, y), then T(a, b) = (x, y).
(b) T(x, y) = (x^4, y) is one-to-one but not onto.
To show one-to-one, assume T(a, b) = T(c, d). Then we have (a^4, b) = (c^4, d), which implies a = c and b = d.
To show not onto, note that there is no (a, b) in R2 such that T(a, b) = (-1, 0), since x^4 is always non-negative.
(d) T(x, y) = (sin(x), cos(y)) is neither one-to-one nor onto.
To show not one-to-one, note that T(0, 0) = T(2π, 0), but (0, 0) ≠ (2π, 0).
To show not onto, note that there is no (x, y) in R2 such that T(x, y) = (0, 1), since sin(x) is always between -1 and 1.
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Test the polar equation for symmetry with respect to the polar axis, the pole, and the line θ = π 2 . (Select all that apply.) r = 3 + 6 cos(θ)
The polar equation r = 3+6cosθ is symmetric to the polar axis with respect to the polar axis.
To test the polar equation r = 3 + 6 cos(θ) for symmetry, we will consider each type of symmetry one by one:
1. Polar axis symmetry: Replace θ with -θ and check if the equation remains the same.
r = 3 + 6 cos(-θ) = 3 + 6 cos(θ) (since cosine is an even function)
Since the equation remains the same, the curve is symmetric with respect to the polar axis.
2. Pole symmetry: Replace r with -r and check if the equation remains the same.
-r = 3 + 6 cos(θ)
This equation is not equivalent to the original equation, so the curve is not symmetric with respect to the pole.
3. Line θ = π/2 symmetry: Replace θ with (π - θ) and check if the equation remains the same.
r = 3 + 6 cos(π - θ) = 3 - 6 cos(θ) (since cos(π - θ) = -cos(θ))
This equation is not equivalent to the original equation, so the curve is not symmetric with respect to the line θ = π/2.
In conclusion, the polar equation r = 3 + 6 cos(θ) is symmetric with respect to the polar axis, but not with respect to the pole or the line θ = π/2.
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Solve the equation by completing the square
a^2+14a-51=0
Answer:
a = 3, -17
Step-by-step explanation:
a ² + 14a - 51 = 0
1) put the a, not a ², in parenthesis.
2) half the coefficient (14) of a. that is 7. Put that into same parenthesis.
3) we have (a + 7)
4) square this and multiply out. (a + 7) ² = a ² + 7a + 7a +49 = a ² +14a + 49
5) this looks just like the original equation except for +49. What do we have to do to get back to original? 49 – (-51) = 49 + 51 = 100. We have to subtract 100
6) now we have (a + 7) ² – 100 =0
7) (a + 7) ² = 100
8) (a + 7) = ± √100
9) a = ± √100 - 7
a = ±10 - 7
= -17 and 3
what is the value of the definite integral ∫3−3(3x3−2x2 x 1) dx? enter your answer as an exact fraction if necessary.
The value of the definite integral ∫3−3(3x3−2x2 x 1) dx is 0.
What is the result of integrating the polynomial function 3x³ - 2x² + x over the interval [-3, 3]?The given question asks us to find the definite integral of a polynomial function of degree 3 over the interval [-3, 3]. When we integrate a polynomial function, we get a polynomial function of one degree higher. In this case, we get a degree 4 polynomial function, which we can evaluate at the upper and lower limits of the interval and take the difference to get the definite integral.
After simplifying the expression, we get the definite integral to be 0. This result suggests that the area under the curve of the given polynomial function over the interval [-3, 3] is zero. Definite integrals have many applications in calculus, physics, engineering, and economics, and understanding their properties is crucial in these fields.
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Answer the following questions. (a) Find the determinant of matrix B by using the cofactor formula. B= 3 0 - 2 0
2 3 0 7
-2 0 1 0
5 0 0 1 (b) First, find the PA= LU factorization of matrix A. Then, det A.
A= 0 2 5
3 1 2 3 5 5
Therefore, the determinant of matrix B is 13. The determinant of A is the product of the pivots in the upper triangular matrix U is 6/5.
(a) Using the cofactor formula, we have:
|B| = 3 * |3 0 7|
- 2 * |2 0 1|
+ 0 * |-2 0 1|
= 3 * (3*1 - 0*5) - 2 * (2*1 - 0*(-2)) + 0 * (-2*0 - 0*1)
= 9 + 4 + 0
= 13
(b) To find the PA=LU factorization of matrix A, we perform Gaussian elimination with partial pivoting. The first step is to interchange the first and second rows to get a nonzero pivot in the (1,1) position:
| 3 1 2 | | 3 1 2 |
| 0 2 5 | -> | 0 -5 -1 |
| 3 5 5 | | 0 0 5 |
Next, we perform row operations to get zeros below the pivot in the second row:
| 3 1 2 | | 3 1 2 |
| 0 -5 -1 | -> | 0 -5 -1 |
| 0 4 3 | | 0 19 11 |
Finally, we divide the second row by -5 and subtract 3 times the second row from the third row to get zeros below the (3,2) position:
| 3 1 2 | | 3 1 2 |
| 0 1 1/5| -> | 0 1 1/5|
| 0 0 2/5| | 0 0 32/5|
Therefore, we have:
A = LU = | 3 1 2 | | 1 0 0 | | 3 1 2 |
| 0 1 1/5 | * | 0 1 0 | = | 0 1 1/5|
| 0 0 2/5 | | 0 0 32/5| | 0 0 2/5 |
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\sqrt{-2x^{2}-2x+11 }=\sqrt{-x^{2} +3}
Answer:
Step-by-step explanation:
sqrt{-2x^{2}-2x+11 }=\sqrt{-x^{2} +3}
Square both sides:
-2x^2 - 2x + 11 = -x^2 + 3
0 = x^2 + 2x - 8
( x + 4)(x - 2) = 0
x = -4, 2.
As the original equation contains square roots some of these roots might be extraneous.
Checking:
x = -4
sqrt(-2(-4)^2 - 2(-4) + 11 = sqrt(-13)
sqrt (-(-4)^2 + 3) = sqrt(-13)
x = 2:
sqrt(-2(4) - 2(2) + 11) = sqrt(-8 - 4 + 11) = sqrt(-1)
sqrt(-(2)^2 + 3) = sqrt(-1)
So both are roots
When government spending increases by $5 billion and the MPC = .8, in the first round of the spending multiplier process a. spending decreases by $5 billion b. spending increases by $25 billion c. spending increases by $5 billion d. spending increases by $4 billion
When government spending increases by $5 billion and the MPC = .8, in the first round of the spending multiplier process, spending increases by $20 billion.
The spending multiplier is the amount by which GDP will increase for each unit increase in government spending. It is calculated as 1/(1-MPC), where MPC is the marginal propensity to consume. In this case, MPC = .8, so the spending multiplier is 1/(1-.8) = 5.
Therefore, when government spending increases by $5 billion, the total increase in spending in the economy will be $5 billion multiplied by the spending multiplier of 5, which equals $25 billion. However, the initial increase in spending is only $5 billion, hence the increase in the first round of the spending multiplier process is $20 billion.
In summary, when government spending increases by $5 billion and the MPC = .8, the initial increase in spending is $5 billion, but the total increase in the first round of the spending multiplier process is $20 billion.
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Describe what each variable does to transform the basic function.
+ d
.
g(x) = a - 2b(x-c)
)
c:
a:
d:
b:
Main answer: Transformations of basic functions depend on the changes made to their variables.
Supporting answer :Functions can be transformed in different ways. The variable a modifies the vertical stretch or compression of a function. A negative value of a produces a reflection over the x-axis. The variable b is used to modify the horizontal stretch or compression of the function. A negative value of b produces a reflection over the y-axis. The variable h translates the graph to the left (h > 0) or to the right (h < 0). Lastly, the variable k translates the graph up (k > 0) or down (k < 0).
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Find the complement in degrees) of the supplement of an angle measuring 115º.
Given: An angle of measure 115 degrees We know that: The supplement of an angle is equal to 180 degrees minus the angle, and the complement of an angle is equal to 90 degrees minus the angle
Now, we need to find the complement of the supplement of an angle measuring 115 degrees.So, let's first find the supplement of the given angle:
Supplement of 115 degrees = 180 - 115= 65 degrees
Now, we need to find the complement of the above angle which is:
Complement of 65 degrees = 90 - 65= 25 degrees Therefore, the complement of the supplement of an angle measuring 115º is 25 degrees.
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A department store is interested in the average balance that is carried on its store’s credit card. A sample of 40 accounts reveals an average balance of $1,250 and a standard deviation of $350. [Use a t-multiple=2.0227]1. What sample size would be needed to ensure that we could estimate the true mean account balance and have only 5 chances in 100 of being off by more than $100? [In order to make a conservative estimate of this sample size, use a z-multiple of 1.96.]a. 47b. 40c. 29d. 48
The answer is:
(a) 47.
How to estimate required sample size?We can use the following formula to find the sample size needed:
n = [(t-value * standard deviation) / margin of error]²
where the margin of error is the maximum amount we allow the estimate to be off by, and the t-value is based on the desired level of confidence and the degrees of freedom (n-1).
In this case, we want the margin of error to be $100 and we want to have a 95% level of confidence. Using a z-value of 1.96 for a 95% confidence interval, we can find the corresponding t-value with 39 degrees of freedom (n-1) using a t-table or calculator.
t-value = 2.0227
Substituting the values into the formula, we get:
n = [(2.0227 * 350) / 100]²
n = 47.22
we get a required sample size of 47 (option a).
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write a formula for the indicated rate of change. s(c, k) = c(32k); dc/dkdc/dk
The formula for the indicated rate of change dc/dk is dc/dk = 32c.
To find the indicated rate of change, we need to calculate dc/dk, which represents the partial derivative of the function s(c, k) = c(32k) with respect to k while treating c as a constant.
To calculate dc/dk, we differentiate the function s(c, k) with respect to k while considering c as a constant:
dc/dk = d/dk (c * (32k))
Applying the product rule of differentiation, we have:
dc/dk = c * d/dk (32k) + (32k) * d/dk (c)
The derivative of 32k with respect to k is 32, as it is a constant multiple of k. The derivative of c with respect to k is zero since c is treated as a constant.
Therefore, dc/dk simplifies to:
dc/dk = c * 32 + 0
dc/dk = 32c
So, the formula for the indicated rate of change dc/dk is dc/dk = 32c.
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express the number as a ratio of integers. 5.880 = 5.880880880
5.880 can be expressed as the ratio of integers 127/25.
To express 5.880 as a ratio of integers, we can write it as follows:
5.880 = 5 + 0.880
To convert the decimal part (0.880) into a fraction, we can write it as a repeating decimal by observing the repeating pattern:
0.880880880...
The repeating part is "880", which has three digits.
Now, we can express 5.880 as a ratio of integers:
5.880 = 5 + 0.880 = 5 + 880/1000
To simplify the fraction, we can divide both the numerator and denominator by their greatest common divisor (GCD), which is 10:
5.880 = 5 + 880/1000 = 5 + (880 ÷ 10)/(1000 ÷ 10) = 5 + 88/100
Finally, we can simplify the fraction further:
5.880 = 5 + 88/100 = 5 + 22/25
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the assembly time for a product is uniformly discributed between 6 to 10 minutes the standard deviaiton of assembly time in minutes is approximately
The assembly time for a product is uniformly distributed between 6 to 10 minutes the standard deviation of assembly time in minutes is approximately 1.155.
To find the standard deviation of assembly time for a product that is uniformly distributed between 6 to 10 minutes, we can use the following formula for a uniform distribution:
Standard Deviation (σ) = √((b - a)² / 12)
Here, 'a' is the lower limit (6 minutes) and 'b' is the upper limit (10 minutes).
Step 1: Calculate (b - a)²
(10 - 6)² = 4² = 16
Step 2: Divide by 12
16 / 12 = 1.3333
Step 3: Find the square root
√1.3333 ≈ 1.155
So, the standard deviation of assembly time for a product in minutes is approximately 1.155.
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The coordinate plane below represents a city. Points A through F are schools in the city. Graph of the coordinate plane. Point A is at 1, 3. Point B is at 3, 1. Point C is at 3, negative 3. Point D is at negative 4, 2. Point E is at negative 1, 5. Point F is at negative 3, negative 3. Part A: Using the graph above, create a system of inequalities that only contain points B and C in the overlapping shaded regions. Explain how the lines will be graphed and shaded on the coordinate grid above. Part B: Explain how to verify that the points B and C are solutions to the system of inequalities created in Part A. Part C: Lisa can only attend a school in her designated zone. Lisa's zone is defined by y > 2x + 5. Explain how you can identify the schools that Lisa is allowed to attend
Based on the inequality y > 2x + 5, Lisa is allowed to attend schools D, E, and F.
Part A: To create a system of inequalities that only contain points B and C in the overlapping shaded regions, we need to identify the boundaries of those regions and set up appropriate inequalities.
Looking at the graph, we can see that the shaded region where points B and C overlap is bounded by two lines: one vertical line passing through x = 3, and one horizontal line passing through y = -3.
The vertical line passing through x = 3 divides the coordinate plane into two regions: one to the left of x = 3 and one to the right. To include point B in the overlapping shaded region, we need to consider the left side of the line, so we set up the inequality x < 3.
The horizontal line passing through y = -3 also divides the coordinate plane into two regions: one above y = -3 and one below. To include point C in the overlapping shaded region, we need to consider the region below the line, so we set up the inequality y < -3.
Therefore, the system of inequalities that only contains points B and C in the overlapping shaded region is:
x < 3
y < -3
To graph these inequalities, you would draw a dotted vertical line at x = 3 and shade the region to the left of the line. Then, draw a dotted horizontal line at y = -3 and shade the region below the line. The overlapping shaded region represents the area where both inequalities are satisfied, and that's where points B and C lie.
Part B: To verify that points B and C are solutions to the system of inequalities created in Part A, we substitute the coordinates of each point into the inequalities and check if the resulting statements are true.
For point B (3, 1):
x < 3 becomes 3 < 3, which is false.
y < -3 becomes 1 < -3, which is false.
Since both inequalities are false when substituting point B, it means that point B is not a solution to the system of inequalities. Therefore, it does not lie in the overlapping shaded region.
For point C (3, -3):
x < 3 becomes 3 < 3, which is false.
y < -3 becomes -3 < -3, which is also false.
Similar to point B, both inequalities are false when substituting point C. Hence, point C is not a solution to the system of inequalities and does not lie in the overlapping shaded region.
Part C: To identify the schools Lisa is allowed to attend based on her designated zone defined by y > 2x + 5, we need to check which schools satisfy this inequality.
Let's evaluate the inequality for each school's coordinates:
Point A (1, 3):
3 > 2(1) + 5
3 > 2 + 5
3 > 7
The inequality is false, so Lisa cannot attend school A.
Point B (3, 1):
1 > 2(3) + 5
1 > 6 + 5
1 > 11
The inequality is false, so Lisa cannot attend school B.
Point C (3, -3):
-3 > 2(3) + 5
-3 > 6 + 5
-3 > 11
The inequality is false, so Lisa cannot attend school C.
Point D (-4, 2):
2 > 2(-4) + 5
2 > -8 + 5
2 > -3
The inequality is true, so Lisa can attend school D.
Point E (-1, 5):
5 > 2(-1) + 5
5 > -2 + 5
5 > 3
The inequality is true,
so Lisa can attend school E.
Point F (-3, -3):
-3 > 2(-3) + 5
-3 > -6 + 5
-3 > -1
The inequality is true, so Lisa can attend school F.
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let s = {3, 8, 13, 18, 23, 28}, e = {8, 18, 28}, f = {3, 13, 23}, and g = {23, 28}. (enter ∅ for the empty set.) find the event (e ∩ f ∩ g)c.
The event (e ∩ f ∩ g)c is equal to the set {3, 8, 13, 18}.
To find the complement of the intersection of sets e, f, and g, denoted as (e ∩ f ∩ g)c, we first need to determine the intersection of sets e, f, and g.
The intersection of sets e, f, and g is the set of elements that are present in all three sets. In this case:
e ∩ f ∩ g = {23, 28}
To find the complement of this intersection, we need to consider all the elements that are not in the set {23, 28}.
Given that the original set s = {3, 8, 13, 18, 23, 28}, the complement of the intersection can be found by subtracting {23, 28} from set s:
(e ∩ f ∩ g)c = s - {23, 28}
Calculating this, we have:
(e ∩ f ∩ g)c = {3, 8, 13, 18}
Therefore, the event (e ∩ f ∩ g)c is equal to the set {3, 8, 13, 18}.
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Evaluate 7j+5-8k7j+5−8k7, j, plus, 5, minus, 8, k when j=0.5j=0.5j, equals, 0, point, 5 and k=0.25k=0.25k, equals, 0, point, 25.
The evaluated value of the given expression when j = 0.5 and k = 0.25 is 6.5.
The given expression is 7j+5−8k7j+5−8k7, j, plus, 5, minus, 8, k.
We need to evaluate the given expression when j=0.5j=0.5j, equals, 0, point, 5 and k=0.25k=0.25k, equals, 0, point, 25.
Now we substitute the values of j and k in the given expression.
7(0.5)+5−8(0.25)7(0.5)+5−8(0.25)7, times, 0, point, 5, plus, 5, minus, 8, times, 0, point, 25=3.5+5-2=6.5
The value of the expression when j=0.5j=0.5j, equals, 0, point, 5 and k=0.25k=0.25k, equals, 0, point, 25 is 6.5, which is the final answer.
Therefore, the evaluated value of the given expression when j = 0.5 and k = 0.25 is 6.5.
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The circumference of an ellipse is approximated by C = 27v ?? where 2a and 26 are the lengths of
the axes of the ellipse. Which equation is the result of solving the formula of the circumference for b?
The equation that results from solving the formula of the circumference for b is given as b² = [27v / (4π) - 26 / 4]²(1 - e²). The circumference of an ellipse is approximated by C = 27v, where 2a and 26 are the lengths of the axes of the ellipse.
We have to find the equation that results from solving the circumference formula b. Now, the formula for the circumference of an ellipse is given by;
C = π [2a + 2b(1 - e²)½], Where a and b are the semi-major and semi-minor axes of the ellipse, respectively, and e is the ellipse's eccentricity. As given, C = 27v Since 2a = 26, a = 13
Putting this value of 2a in the formula for circumference;
27v = π [2a + 2b(1 - e²)½]
27v = π [2 × 13 + 2b(1 - e²)½]
27v = π [26 + 2b(1 - e²)½]
Now, dividing by π into both sides;
27v / π = 26 + 2b(1 - e²)½
Subtracting 26 from both sides;
27v / π - 26 = 2b(1 - e²)½
Squaring both sides, we get;
[27v / π - 26]² = 4b²(1 - e²)
Multiplying by [1 - e²] on both sides;
[27v / π - 26]²(1 - e²) = 4b²
Multiplying by ¼ on both sides;
[27v / (4π) - 26 / 4]²(1 - e²) = b²
So, the equation that results from solving the formula of the circumference for b is;
b² = [27v / (4π) - 26 / 4]²(1 - e²). Therefore, the correct option is (A) b² = [27v / (4π) - 26 / 4]²(1 - e²).
Thus, the equation that results from solving the formula of the circumference for b is given as :
b² = [27v / (4π) - 26 / 4]²(1 - e²).
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The cost function for a company ro produce a lunch box c(x)= 3x+7000, where x is the number of lunch boxes. the company sells the lunch boxes for $12 each. write a function and profit revenue for the company
The profit function is 9x - 7000 and the revenue function is 12x.
Given that the cost function for a company to produce a lunch box is c(x)= 3x+7000 where x is the number of lunch boxes and the company sells the lunch boxes for $12 each.
To write a profit function, the revenue function is required to calculate the profit earned by the company.
The revenue function is given as:
Revenue = Selling Price × Quantity Sold
Price is $12 for each lunch box, therefore
Revenue = $12 × Quantity sold
Quantity sold is represented as x, therefore,
Revenue = 12x
The profit function is given as:
Profit = Revenue - Cost
The cost function is given as c(x)= 3x+7000
Therefore,
Profit = 12x - (3x + 7000)
Profit = 9x - 7000
Hence, the profit function is 9x - 7000 and the revenue function is 12x.
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A hydrated salt of Calcium Chloride was found to have a mass of 5. 4769g. After heating the substance for a long time, the mass of the anhydrous salt was measured to be 2. 7745g. What was the formula of the hydrated Calcium Chloride compound?
The hydrated Calcium Chloride compound is CACl₂.0.2998H₂O
To determine the formula of the hydrated Calcium Chloride compound, to calculate the number of water molecules present in the hydrated salt.
First to calculate the mass of water lost during the heating process. This can be done by subtracting the mass of the anhydrous salt from the mass of the hydrated salt.
Mass of water lost = Mass of hydrated salt - Mass of anhydrous salt
= 5.4769 g - 2.7745 g
= 2.7024 g
To convert the mass of water lost to moles. the molar mass of water, which is approximately 18.015 g/mol.
Number of moles of water lost = Mass of water lost / Molar mass of water
= 2.7024 g / 18.015 g/mol CACl₂x²
= 0.1499 mol
Calcium Chloride (CACl₂x²) has a molar mass of approximately 110.98 g/mol.
Since calcium chloride has a 1:2 ratio with water in the hydrated form, the following equation:
0.1499 mol water / 1 mol CACl₂ = X mol water / 2 mol CACl₂x²
0.1499 mol water = X mol water / 2
X mol water ≈ 0.1499 mol water × 2
X mol water ≈ 0.2998 mol water
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Use the Ratio Test to determine whether the series is convergent or divergent.
[infinity] n
6n
n = 1
Identify
an.
Evaluate the following limit.
lim n → [infinity]
an + 1
an
the series ∑(n=1 to infinity) [tex]n^{6}[/tex] / n! is convergent by using ratio test.
To apply the Ratio Test, we need to evaluate the limit of the ratio of consecutive terms, lim(n→∞) (a(n+1) / a(n)).
In this case, a(n) = [tex]n^{6}[/tex] / n! and a(n+1) =[tex](n+1)^{6}[/tex] / (n+1)!.
Taking the limit, we have:
lim(n→∞) [[tex](n+1)^{6}[/tex] / (n+1)!] / [[tex]n^{6}[/tex] / n!]
= lim(n→∞) [[tex](n+1)^{6}[/tex] / [tex]n^{6}[/tex]] * [n! / (n+1)!]
= lim(n→∞) [[tex](n+1)^{6}[/tex] / [tex]n^{6}[/tex]] * [1 / (n+1)]
= 1 * 0 = 0.
Since the limit of the ratio of consecutive terms is 0, which is less than 1, the series converges by the Ratio Test.
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