Answer: point form
1. (6,24)
2.(-4,-12)
3.(3,15)
4. (-5,-20)
5. (2,4)
6.(-1,-4)
7.(-3,-9)
8.(-4,-8)
9.(3,9)
10.(-6,-30)
Step-by-step explanation:
Answer:
nice pfp and the anwser is under this sorry i dont know the y-4,7-3x,ect ones
Step-by-step explanation:
1.y=18
2.y=8
y=12
y=4 x=4
7=3
use the ratio test to determine the radius of convergence of the following series: ∑n=0[infinity]xn17n r= 1/17
The ratio test is a tool used to determine the convergence of a series. It involves taking the limit as n approaches infinity of the absolute value of the ratio of the (n+1)th term to the nth term. If this limit is less than 1, the series converges absolutely. If it is greater than 1, the series diverges. If it equals 1, the test is inconclusive.
In this case, we have the series ∑n=0[infinity]xⁿ17nⁿ. Applying the ratio test, we have:
|xⁿ+1 17ⁿ⁺¹| / |xn 17^nⁿ| = |ⁿ|/|xn| * 1/17
Taking the limit as n approaches infinity, we have:
lim (n->inf) |xⁿ/|⁺n| * 1/17 = r/17, where r is the limit of |xn+1|/|xn| as n approaches infinity.
Since r/17 is less than 1 (given that r = 1/17), we can conclude that the series converges absolutely. Therefore, the radius of convergence is equal to the reciprocal of the limit r, which is 17. Thus, the series converges absolutely for all values of x within a distance of 17 units from the origin.
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if 2^x=3 what does 4^-x equal
If 2^x=3 the answer is 9/4 equal.
Given, 2^x = 3
We need to find 4^(-x)
Let's first write 4 in terms of 2.4 = 2 × 2
Now, we can write 4^(-x) in terms of 2 as (2 × 2)^(-x) = 2^(-x) × 2^(-x) = (2^(-x))^2
We know that 2^x = 3
Now, let's find 2^(-x) using the above expression.
2^x = 32^(-x) × 2^x = 2^(-x) × 32^(-x) = 3/2
Now, 4^(-x) can be written as (2^(-x))^2
Substituting 2^(-x) = 3/2, we get4^(-x) = (2^(-x))^2= (3/2)^2= 9/4
Hence, the answer is 9/4.
4^(-x) = 9/4
Given, 2^x = 3
We need to find 4^(-x)
Let's first write 4 in terms of 2.4 = 2 × 2
Now, we can write 4^(-x) in terms of 2 as (2 × 2)^(-x) = 2^(-x) × 2^(-x) = (2^(-x))^2
We know that 2^x = 3
Now, let's find 2^(-x) using the above expression.
2^x = 32^(-x) × 2^x = 2^(-x) × 32^(-x) = 3/2
Now, 4^(-x) can be written as (2^(-x))^2
Substituting 2^(-x) = 3/2, we get4^(-x) = (2^(-x))^2= (3/2)^2= 9/4
Hence, the answer is 9/4.
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The dependent variable is the ACT score, the first independent variable (x1)is the number of hours spent studying, and the second independent variable (x2)is the student's GPA.Study Hours GPA ACT Score1 2 172 3 183 4 205 4 315 4 31Step 1: Find the p-value for the regression equation that fits the given data. Round your answer to four decimal places?Step 2: Determine if a statistically significant linear relationship exists between the independent and dependent variables at the 0.01 level of significance. If the relationship is statistically significant, identify the multiple regression equation that best fits the data?
Statistically significant linear relationship between the independent variables (study hours and GPA) and the dependent variable (ACT score), and the multiple regression equation can be used to predict the ACT score based on the hours studied and the student's GPA.
In this scenario, the dependent variable is the ACT score, while the independent variables are the number of hours spent studying (x1) and the student's GPA (x2).
To find the p-value for the regression equation, we can use a statistical software or calculator to perform a multiple linear regression analysis. The p-value represents the probability that the observed relationship between the independent and dependent variables is due to chance.
Assuming that we have performed the analysis and obtained the results, we can say that the p-value is less than 0.01 (since the level of significance is set at 0.01). This suggests that there is a statistically significant linear relationship between the independent variables (study hours and GPA) and the dependent variable (ACT score).
To identify the multiple regression equation that best fits the data, we can look at the coefficients for each independent variable. These coefficients represent the change in the dependent variable (ACT score) for every one unit increase in the independent variable, holding all other variables constant.
Based on the given data, we can write the multiple regression equation as:
ACT score = b0 + b1(hours studied) + b2(GPA)
where b0 is the intercept, b1 is the coefficient for hours studied, and b2 is the coefficient for GPA.
Using the regression analysis results, we can plug in the values of the coefficients to obtain the specific equation that fits the data.
Overall, we can conclude that there is a statistically significant linear relationship between the independent variables (study hours and GPA) and the dependent variable (ACT score), and the multiple regression equation can be used to predict the ACT score based on the hours studied and the student's GPA.
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The heart rates (in beats per minute) of 41 randomly selected finishers of the Chicago Marathon, five minutes after they completed the race, had sample mean x = 132 and sample variance s2 = 105. Assuming that the heart rates of all finishers of the Chicago Marathon five minutes after completing the race are normally distributed, obtain a 95% confidence interval for their mean.
The 95% confidence interval for the mean heart rate of Chicago Marathon finishers five minutes after completing the race is (128.74, 135.26) beats per minute for variance.
To find the 95% confidence interval for the mean heart rate of Chicago Marathon finishers five minutes after completing the race, we can use the following formula:
[tex]CI = x +- (t * (s / \sqrt{n} ))[/tex]
where:
- CI is the confidence interval
- x is the sample mean (132)
- t is the t-value corresponding to the 95% confidence level
- s is the square root of the sample variance (the sample standard deviation)
- n is the sample size (41)
Step 1: Calculate the sample standard deviation
[tex]s = \sqrt{s^2} = \sqrt{105}[/tex]≈ 10.25
Step 2: Find the t-value for a 95% confidence level with 40 degrees of freedom (n - 1)
Using a t-table or calculator, we find that the t-value is approximately 2.021.
Step 3: Calculate the margin of error
Margin of Error =[tex]t * (s / \sqrt{n} ) = 2.021 * (10.25 / \sqrt{4} )[/tex] ≈ 3.26
Step 4: Calculate the confidence interval
CI = x ± Margin of Error = 132 ± 3.26
CI = (128.74, 135.26)
So, the 95% confidence interval for the mean heart rate of Chicago Marathon finishers five minutes after completing the race is (128.74, 135.26) beats per minute.
You are given: (i) a/10 =7.52; and (ii) d/dδ(a/10) = -33.865 Calculate δ. (A) 0.059 (B) 0.060 (C) 0.061 (D) 0.062 (E) 0.063
Thus, the positive value of δ, the absolute value δ = 0.448 using the chain rule of differentiation, not one of the options given.
To solve for δ, we need to use the chain rule of differentiation. Starting with equation (i), we can take the derivative of both sides with respect to δ:
d/dδ(a/10) = d/dδ(7.52)
Using the chain rule, we can simplify the left side of the equation:
d/dδ(a/10) = (d/d(a/10))(a/10)' = (1/10)(a/10)'
Now we can substitute in the given value for d/dδ(a/10) and solve for (a/10)':
-33.865 = (1/10)(a/10)'
(a/10)' = -338.65
Now we can use equation (i) and substitute in the value for (a/10) and (a/10)':
7.52 = a/10
-338.65 = (a/10)'
Multiplying these equations together, we get:
-2540.468 = a'
Finally, we can use the derivative of the given equation to solve for δ:
a = 75.2δ
a' = 75.2
-2540.468 = 75.2
δ = -33.77/75.2
δ = -0.448
However, the problem asks for a positive value of δ, so we take the absolute value:
δ = 0.448
Therefore, the answer is not one of the options given in the question.
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Maria works at the snack stand at a basketball game.
Each frozen yogurt costs $3, and each sandwich costs $6.
Maria makes a list of the costs for buying 0, 1, 2, 3, 4,
5, or 6 frozen yogurts. She also makes a list of the
costs for the same number of sandwiches.
Show how Maria may have made her lists of costs.
• Write a sentence describing the rules used to
make each list.
●
The table is attached in the solution.
Given that Maria selling the yogurts and the sandwiches at $3 and $6 respectively,
We need to make a table if she sells 0, 1, 2, 3, 4, 5, or 6 frozen yogurts same for the sandwiches,
Yogurt =
Since one yogurt cost $3 therefore we will multiply the number of yogurts to the unit rate to find the cost of the number of packets given,
Similarly,
Sandwich =
one sandwich cost $6 therefore we will multiply the number of sandwiches to the unit rate to find the cost of the number of packets given,
The table is attached.
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Help please!
What are the values of A and B?
6√3
B
B = [ ]°
6
A
A = [?]°
Step-by-step explanation:
By trigonometry :
cos A = 6/12
cos A = 1/2
A = 60°
and, values of B :
cos B = 6√3/12
cos B = √3/2
B = 30°
Values of A and B are 60° and 30°
Subject : Mathematics
Level : JHS
Chapter : Geometry
Write a rational equation that meets the given requirements:
- Horizontal Asymptote: y=0
- Exactly one Vertical Asymptote at x=-1
- Hole at: (1,2)
Answer:
This function has a horizontal asymptote at y=0, a vertical asymptote at x=-1, and a hole at (1,2).
Step-by-step explanation:
A rational equation with the given requirements can be written in the form:
f(x) = (x - 1) / [(x + 1)g(x)]
where g(x) is a factor in the denominator that ensures the vertical asymptote at x=-1.
To meet the condition that y=0 is a horizontal asymptote, we need to ensure that the degree of the denominator is greater than or equal to the degree of the numerator.
To create a hole at (1,2), we need to ensure that the factor (x-1) appears in both the numerator and the denominator, so that they cancel each other out at x=1.
One possible function that meets all of these requirements is:
f(x) = (x - 1) / [(x + 1)(x - 1)]
Simplifying this function, we get:
f(x) = 1 / (x + 1)
This function has a horizontal asymptote at y=0, a vertical asymptote at x=-1, and a hole at (1,2).
find the velocity, acceleration, and speed of a particle with the given position function. r(t) = t2i 7tj 9 ln(t)k
- The velocity vector is v(t) = 2ti + 7j + (9/t)k.
- The acceleration vector is a(t) = 2i + (9/t^2)k.
- The speed of the particle is given by the magnitude of the velocity vector, which is ||v(t)|| = √(4t^2 + 49 + (81/t^2)).
The velocity vector represents the rate of change of position with respect to time. To find it, we take the derivative of the position vector r(t) with respect to time. In this case, the derivative of t^2 with respect to t is 2t, the derivative of 7t with respect to t is 7, and the derivative of 9 ln(t) with respect to t is (9/t).
The acceleration vector represents the rate of change of velocity with respect to time. To find it, we take the derivative of the velocity vector v(t) with respect to time. The derivative of 2t with respect to t is 2, and the derivative of 9/t with respect to t is (9/t^2).
Finally, the speed of the particle is the magnitude of the velocity vector, which is found by taking the square root of the sum of the squares of the components of the velocity vector. In this case, the speed is given by the expression √(4t^2 + 49 + (81/t^2)), where the squares and reciprocal are applied to the corresponding components of the velocity vector.The velocity, acceleration, and speed of a particle with the given position function r(t) = t^2i + 7tj + 9 ln(t)k are as follows:
- The velocity vector is v(t) = 2ti + 7j + (9/t)k.
- The acceleration vector is a(t) = 2i + (9/t^2)k.
- The speed of the particle is given by the magnitude of the velocity vector, which is ||v(t)|| = √(4t^2 + 49 + (81/t^2)).
The velocity vector represents the rate of change of position with respect to time. To find it, we take the derivative of the position vector r(t) with respect to time. In this case, the derivative of t^2 with respect to t is 2t, the derivative of 7t with respect to t is 7, and the derivative of 9 ln(t) with respect to t is (9/t).
The acceleration vector represents the rate of change of velocity with respect to time. To find it, we take the derivative of the velocity vector v(t) with respect to time. The derivative of 2t with respect to t is 2, and the derivative of 9/t with respect to t is (9/t^2).
Finally, the speed of the particle is the magnitude of the velocity vector, which is found by taking the square root of the sum of the squares of the components of the velocity vector. In this case, the speed is given by the expression √(4t^2 + 49 + (81/t^2)), where the squares and reciprocal are applied to the corresponding components of the velocity vector.
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25) Let B = {(1, 2), (?1, ?1)} and B' = {(?4, 1), (0, 2)} be bases for R2, and let
25) Let B = {(1, 2), (?1, ?1)}
and&
(a) Find the transition matrix P from B' to B.
(b) Use the matrices P and A to find [v]B and [T(v)]B?, where [v]B' = [4 ?1]T.
(c) Find P?1 and A' (the matrix for T relative to B').
(d) Find [T(v)]B' two ways.
1) [T(v)]B' = P?1[T(v)]B = ?
2) [T(v)]B' = A'[v]B' = ?
In this problem, we are given two bases for R2, B = {(1, 2), (-1, -1)} and B' = {(-4, 1), (0, 2)}. We are asked to find the transition matrix P from B' to B, and then use this matrix to find [v]B and [T(v)]B'. Finally, we need to find the inverse of P and the matrix A' for T relative to B', and then use these to find [T(v)]B' in two different ways.
To find the transition matrix P from B' to B, we need to express the vectors in B' as linear combinations of the vectors in B, and then write the coefficients as columns of a matrix. Doing this, we get:
P = [ [1, 2], [-1, -1] ][tex]^-1[/tex] * [ [-4, 0], [1, 2] ] = [ [-2, 2], [1, -1] ]
Next, we are given [v]B' = [4, -1]T and asked to find [v]B and [T(v)]B'. To find [v]B, we use the formula [v]B = P[v]B', which gives us [v]B = [-10, 5]T. To find [T(v)]B', we first need to find the matrix A for T relative to B. To do this, we compute A = [tex][T(1,2), T(-1,-1)][/tex]* P^-1 = [ [6, 3], [-1, -1] ]. Then, we can compute [T(v)]B' = A[v]B' = [-26, 5]T.
Next, we are asked to [tex]find[/tex][tex]P^-1[/tex]and A', the matrix for T relative to B'. To find P^-1, we simply invert the matrix P to get P^-1 = [ [-1/2, 1/2], [1/2, -1/2] ]. To find A', we need to compute the matrix A for T relative to B', which is given by A' = P^-1 * A * P = [ [0, -3], [0, 2] ].
Finally, we are asked to find [T(v)]B' in two different ways. The first way is to use the formula [T(v)]B' = P^-1[T(v)]B, which gives us [T(v)]B' = [-26, 5]T, the same as before. The second way is to use the formula[tex][T(v)]B'[/tex] = A'[v]B', which gives us[tex][T(v)]B'[/tex] = [-26, 5]T
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What is the volume? I WILL MARK AS BRAINLIEST
Answer:
[tex]168 cm^3[/tex]
Step-by-step explanation:
area of a triangle is length times width divided by two.
[tex](6cm*8cm)/2=24cm^2[/tex]
volume of prism is base times height.
[tex]24cm^2*7cm=168cm^3[/tex]
If someone could give me the correct answer for the first two, and explain step by step how to solve the last problem / what the correct answer would be I’ll thank you forever
Correct. Well done!!
Express the limit as a definite integral on the given interval.
n lim Σ [4(xi*)3 − 7xi*]Δx, [2, 5]
n→[infinity] i = 1 ∫ ( ________ ) dx
2
The given limit can be expressed as a definite integral on the interval [2, 5] by using the definition of a Riemann sum:
lim Σ [4(xi*)3 − 7xi*]Δx, [2, 5]
n→[infinity] i = 1
This can be rewritten as:
lim Σ [(4(xi*)3 − 7xi*)/2] 2(n/2)Δx, [2, 5]
n→[infinity] i = 1
where Δx = (5 - 2)/n = 3/n and xi* is any point in the ith subinterval [xi-1, xi]. We have also divided n into 2 equal parts to get 2(n/2)Δx.
Now, we can express the above Riemann sum as a definite integral by taking the limit of the sum as n approaches infinity:
lim n→[infinity] Σ [(4(xi*)3 − 7xi*)/2] 2(n/2)Δx
= lim n→[infinity] Σ [(4(xi*)3 − 7xi*)/2] (5-2)/n (n/2)
= lim n→[infinity] Σ [(4(xi*)3 − 7xi*)/2] (3/2)
= ∫2^5 [(4x^3 − 7x)/2] dx
Therefore, the limit can be expressed as the definite integral:
∫2^5 [(4x^3 − 7x)/2] dx.
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Verify the identity.
(sin(x) + cos(x))2
sin2(x) − cos2(x)
=
sin2(x) − cos2(x)
(sin(x) − cos(x))
The identity for this trigonometric equation is verified, since the left-hand side and right-hand side are equal.
To verify this identity, we will start by expanding the left-hand side of the equation:
(sin(x) + cos(x))2 = sin2(x) + 2sin(x)cos(x) + cos2(x)
Next, we will simplify the right-hand side of the equation:
sin2(x) − cos2(x) = (sin(x) + cos(x))(sin(x) − cos(x))
Now we can substitute this expression into the original equation:
(sin(x) + cos(x))2 = (sin(x) + cos(x))(sin(x) − cos(x))
To finish, we will cancel out the common factor of (sin(x) + cos(x)) on both sides of the equation:
sin(x) + cos(x) = sin(x) − cos(x)
And after simplifying:
2cos(x) = 0
Therefore, the identity is verified, since the left-hand side and right-hand side are equal.
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Define the set S = {a, b, c, d, e, f, g}. (a) Give an example of a 4-permutation from the set S. (b) Give an example of a 4-subset from the set S. (c) How many subsets of S have exactly four elements? (d) How many subsets of S have either three or four elements?
In set S, a 4-permutation example is (b, d, e, g), a 4-subset example is {a, c, d, e}, there are 35 subsets with exactly four elements, and there are 70 subsets with either three or four elements.
(a) A 4-permutation from the set S is an ordered arrangement of 4 distinct elements from the set. Example: (b, d, e, g)
(b) A 4-subset from the set S is a selection of 4 distinct elements without considering the order. Example: {a, c, d, e}
(c) To determine the number of subsets of S with exactly four elements, you can use the combination formula: C(n, k) = n! / (k!(n-k)!), where n is the total number of elements in the set (7 in this case) and k is the number of elements you want to select (4 in this case).
So, C(7, 4) = 7! / (4!3!) = 35 subsets with exactly four elements.
(d) To find the number of subsets of S with either three or four elements, calculate the number of subsets for each case separately, and then add them together.
For 3-element subsets, use C(7, 3) = 7! / (3!4!) = 35 subsets.
Then, add the results from (c) and this step: 35 (4-element subsets) + 35 (3-element subsets) = 70 subsets with either three or four elements.
Your answer: In set S, a 4-permutation example is (b, d, e, g), a 4-subset example is {a, c, d, e}, there are 35 subsets with exactly four elements, and there are 70 subsets with either three or four elements.
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find the plane z = a bx cy that best fits the data points (0, −3, 0), (4, 0, 0), (3, −1, 1), (1, −2, 1), and (−1, −5, −3).
The equation of the plane that best fits the given data points is z =200/29 - 133/87x + 196/87y
To find the plane that best fits the given data points, we can use the method of least squares regression. We want to find a plane in the form z = a + bx + cy that minimizes the sum of the squared distances between the actual data points and the predicted values on the plane.
Let's denote the given data points as (x1, y1, z1), (x2, y2, z2), ..., (xn, yn, zn).
The equations for the given data points can be written as follows:
Equation 1: 1a + 0b - 3c = 0
Equation 2: 1a + 4b + 0c = 0
Equation 3: 1a + 3b - 1c = 1
Equation 4: 1a + 1b - 2c = 1
Equation 5: 1a - 1b - 5c = -3
We can express the system of equations in matrix form as AX = B, where:
A = [[1, 0, -3], [1, 4, 0], [1, 3, -1], [1, 1, -2], [1, -1, -5]]
X = [a, b, c]
B = [0, 0, 1, 1, -3]
To solve for X, we can use the least squares method:
X = [tex](A^T*A)^{-1}*A^T*B[/tex]
Let's perform the calculations:
Step 1: Calculate [tex]A^T[/tex] (transpose of A)
[tex]A^T[/tex] = [[1, 1, 1, 1, 1], [0, 4, 3, 1, -1], [-3, 0, -1, -2, -5]]
Step 2: Calculate [tex]A^T*A[/tex]
[tex]A^T*A[/tex] = [[5, 7, -11], [7, 27, 0], [-11, 0, 39]]
Step 3: Calculate [tex](A^T*A)^{-1[/tex] (inverse of A^T * A)
[tex](A^T*A)^{-1[/tex] = [[351/29, -91/29, 99/29], [-91/29, 74/87, -77/87], [99/29, -77/87, 86/87]]
Step 4: Calculate [tex]A^T*B[/tex]
[tex]A^T*B[/tex] = [[-1], [7], [12]]
Step 5: Calculate X
X = [tex](A^T*A)^{-1}*A^T*B[/tex]
= [[351/29, -91/29, 99/29], [-91/29, 74/87, -77/87], [99/29, -77/87, 86/87]] * [[-1], [7], [12]]
= [[200/29], [-133/87], [196/87]]
Therefore, the values of a, b, and c that define the plane are approximately:
a = 200/29
b = - 133/87
c= 196/87
The equation of the plane that best fits the given data points is:
z =200/29 - 133/87x + 196/87y
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Why are we justified in pooling the population proportion estimates and the standard error of the difference between these estimates when we conduct significance tests about the difference between population proportions?
Pooling the population proportion estimates and the standard error of the difference between these estimates is justified when conducting significance tests about the difference between population proportions under certain conditions.
The conditions for PoolingThe pooling approach assumes that the two population proportions being compared are equal. This assumption allows us to estimate a common population proportion from the combined sample data, which leads to a more precise estimate of the standard error of the difference between the proportions.
The justification for pooling relies on the following conditions:
1. Independence: The samples from which the proportions are estimated must be independent of each other. This means that the observations within each sample should be unrelated to the observations in the other sample.
2. Random Sampling: The samples should be randomly selected from their respective populations. This helps to ensure that the samples are representative of their populations and that the estimates can be generalized.
3. Large Sample Sizes: Ideally, both samples should be large enough for the sampling distribution of each proportion to be approximately normal. This assumption is necessary for accurate estimation of the standard error.
If these conditions are met, pooling the proportion estimates and the standard error is justified because it improves the precision of the estimate and leads to more accurate hypothesis testing. By pooling the estimates, we can obtain a more reliable combined estimate of the population proportion, which results in a smaller standard error and more robust statistical inferences about the difference between the population proportions.
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write an equation of the line perpendicular to p passing through (3,-2) call this line n
The equation of the line perpendicular to p is given as follows:
y = -x/3 - 1.
How to define a linear function?The slope-intercept equation for a linear function is presented as follows:
y = mx + b
The coefficients m and b represent the slope and the intercept, respectively, and are explained as follows:
m represents the slope of the function, which is by how much the dependent variable y increases or decreases when the independent variable x is added by one.b represents the y-intercept of the function, representing the numeric value of the function when the input variable x has a value of 0. On a graph, the intercept is given by the value of y at which the graph crosses or touches the y-axis.The slope of line p is given as follows:
(2 - (-1))/(2 - 1) = 3.
As the two lines are perpendicular, the slope of line n is obtained as follows:
3m = -1
m = -1/3.
Hence:
y = -x/3 + b.
When x = 3, y = -2, hence the intercept b is obtained as follows:
-2 = -1 + b
b = -1.
Hence the equation is given as follows:
y = -x/3 - 1.
Missing InformationThe graph of line p is given by the image presented at the end of the answer.
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Correct answer gets brainliest!!
Cube B will have larger volume.
Given,
12 in = 1 ft
Volume of Cube A = a³ = 216 in³
Side of Cube A (a) = 6 in
Now,
Volume of Cube B = a³ = (0.6)³
Volume of Cube B = 0.216 ft³
Side of Cube B = 0.6 ft
Convert ft into inches for comparison of volumes:
Side of Cube A = 6 in
Side of Cube A = 0.5 ft
Volume of Cube A = (0.5)³
Volume of Cube A = 0.125 ft³
Thus after comparison Cube B will have larger volume than Cube A.
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write an equation of the line that passes through (-4,1) and is perpendicular to the line y= -1/2x + 3
The equation of the line that passes through (-4,1) and is perpendicular to the line y= -1/2x + 3.
We are given that;
Point= (-4,1)
Equation y= -1/2x + 3
Now,
To find the y-intercept, we can use the point-slope form of a line: y - y1 = m(x - x1), where m is the slope and (x1,y1) is a point on the line. Substituting the values we have, we get:
y - 1 = 2(x - (-4))
Simplifying and rearranging, we get:
y = 2x + 9
Therefore, by the given slope the answer will be y= -1/2x + 3.
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Consider an urn with 10 balls labeled 1,...,10. You draw four times without replacement from this urn. (a) What is the probability of only drawing balls with odd numbers? (b) What is the probability that the smallest drawn number is equal to k for k = 1,..., 10? ?
a. the probability of only drawing balls with odd numbers is 5/210 = 1/42. b. the probability that the smallest drawn number is equal to k is (10-k+1 choose 4) / (10 choose 4) for k = 1,...,10.
(a) The probability of only drawing balls with odd numbers can be found by counting the number of ways to select four odd-numbered balls divided by the total number of ways to select four balls from the urn without replacement. There are 5 odd-numbered balls in the urn, so the number of ways to select four of them is (5 choose 4) = 5. The total number of ways to select four balls from the urn without replacement is (10 choose 4) = 210. Therefore, the probability of only drawing balls with odd numbers is 5/210 = 1/42.
(b) To find the probability that the smallest drawn number is equal to k for k = 1,...,10, we need to count the number of ways to select four balls from the remaining balls after the k-1 smallest balls have been removed, and divide by the total number of ways to select four balls from the urn without replacement. The number of ways to select four balls from the remaining (10-k+1) balls is (10-k+1 choose 4), and the total number of ways to select four balls from the urn without replacement is (10 choose 4). Therefore, the probability that the smallest drawn number is equal to k is (10-k+1 choose 4) / (10 choose 4) for k = 1,...,10.
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Solve the following
Answer :
a)
By cross multiplication
[tex] \dfrac{3x + 4}{2} = 9.5 \\ \\ 3x + 4 = 9.5 \times 2 \\ \\ 3x + 4 = 19 \\ \\ 3x = 19 - 4 \\ \\ 3x = 15 \\ \\ x = \dfrac{15}{3} \\ \\ { \underline{x = 5}}[/tex]
b)
[tex] \dfrac{7 + 2x }{3} = 5 \\ \\ 7 + 2x = 5 \times 3 \\ \\ 7 + 2x = 15 \\ \\ 2x = 15 - 7 \\ \\ 2x = 8 \\ \\ x = \dfrac{8}{2} \\ \\ { \underline{x = 4}}[/tex]
the random variable x is known to be uniformly distributed between 5 and 15. compute the standard deviation of x.
The standard deviation of the uniformly distributed random variable x is approximately 2.8868.
To compute the standard deviation of a uniformly distributed random variable, we can use the formula:
Standard Deviation = (b - a) / sqrt(12)
where 'a' and 'b' are the lower and upper bounds of the uniform distribution, respectively.
In this case, the lower bound (a) is 5 and the upper bound (b) is 15. Plugging these values into the formula, we get:
Standard Deviation = (15 - 5) / sqrt(12)
Simplifying this expression gives:
Standard Deviation = 10 / sqrt(12)
To obtain the numerical value, we can approximate the square root of 12 as 3.4641:
Standard Deviation ≈ 10 / 3.4641 ≈ 2.8868
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For any integers a, b and c, if a-b is even and b-c is even, then a-c is even." Write the negation of it 2 1. Which of the original and negation is true/false? Write the converse, inverse, and contrapositive of it. Which among the converse, inverse, and contrapositive are true and which are false? Give a counter example for each that is false. 3. 4. 5.
The negation of the statement "For any integers a, b and c, if a-b is even and b-c is even, then a-c is even" is: "There exist integers a, b, and c such that a-b is even, b-c is even, and a-c is odd." The original statement is true.
The converse of the statement is: "For any integers a, b, and c, if a-c is even, then a-b is even and b-c is even." The converse is false. A counterexample would be a=3, b=2, and c=1. Here, a-c=2 which is even, but a-b=1 which is odd and b-c=1 which is odd.
The inverse of the statement is: "For any integers a, b, and c, if a-b is odd or b-c is odd, then a-c is odd." The inverse is false. A counterexample would be a=4, b=2, and c=1. Here, a-b=2 which is even, b-c=1 which is odd, but a-c=3 which is odd.
The contrapositive of the statement is: "For any integers a, b, and c, if a-c is odd, then a-b is odd or b-c is odd." The contrapositive is true. To see this, assume a-c is odd. Then either a is odd and c is even, or a is even and c is odd. In either case, a-b and b-c are either both odd or both even, so at least one of them is odd.
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first, we wish to find polar coordinates with r > 0. to find the positive value of r, we choose the positive square root to solve for r.
When working with polar coordinates, it's important to remember that r represents the distance from the origin to the point in question. Since we're looking for a positive value of r, we'll choose the positive square root when solving for r. This ensures that we're measuring the distance in a positive direction, away from the origin.
For example, let's say we have a point in Cartesian coordinates (3, -4). To find the polar coordinates with r > 0, we first need to find the value of r. We can use the Pythagorean theorem to do this:
r^2 = x^2 + y^2
r^2 = 3^2 + (-4)^2
r^2 = 9 + 16
r^2 = 25
Now we can take the positive square root to solve for r:
r = sqrt(25)
r = 5
So the distance from the origin to the point (3, -4) is 5. To find the angle (theta) in polar coordinates, we can use the inverse tangent function:
theta = arctan(y/x)
theta = arctan(-4/3)
Note that we use the negative value for y because the point is in the third quadrant, where y values are negative.
So the polar coordinates for the point (3, -4) with r > 0 are (5, arctan(-4/3)).
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use the integral test to determine whether the series is convergent or divergent. [infinity] 3 (2n 5)3 n = 1 evaluate the following integral [infinity] 1 3 (2x 5)3 dx
The series is divergent.
Is the integral of 3 (2x 5)3 from 1 to infinity convergent or divergent?To determine the convergence or divergence of the series[tex][\infty] 3 (2n 5)3 n = 1[/tex] using the integral test, we need to evaluate the following integral:
∫[tex][\infty][/tex]1 3 (2x 5)3 dx
Let's calculate the integral:
∫[tex][\infty][/tex] 1 3 (2x 5)3 dx = ∫[tex][\infty][/tex] 1 24x3 dx
Integrating with respect to x:
= (24/4)x4 + C
= 6x4 + C
To evaluate this integral from 1 to infinity, we substitute the limits:
lim[x→∞] 6x4 - 6(1)4 = lim[x→∞] 6x4 - 6 = ∞
The integral diverges as it approaches infinity. Therefore, by the integral test, the series[tex][\infty] 3 (2n 5)3 n = 1[/tex] is also divergent.
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Jamilia deposits $800 in an account that erns yearly simple interest at a rate of 2.65%. How much money is in the account after 3 years and 9 months?
After 3 years and 9 months, the amount of money in Jamilia's account, with an initial deposit of $800 and an annual simple interest rate of 2.65%, will be approximately $862.78.
To calculate the final amount, we need to consider both the principal amount and the interest earned over the given time period. The simple interest formula is:
Interest = Principal × Rate × Time
First, let's calculate the interest earned. The principal amount is $800, the rate is 2.65% (or 0.0265 as a decimal), and the time is 3 years and 9 months. Converting the time into years, we have 3 + 9/12 = 3.75 years.
Interest = $800 × 0.0265 × 3.75 = $79.50
Now, to find the total amount in the account, we add the interest to the principal:
Total Amount = Principal + Interest = $800 + $79.50 = $879.50
Therefore, after 3 years and 9 months, Jamilia will have approximately $879.50 in her account.
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Type the correct answer in each box.
using your solution from question 1, enter the dimensions of the bike helmet shipping box. enter the lengths in order
from least to greatest value.
inches
inches *
inches
The dimensions of the helmet box from least to greatest value are:
Height = 8 in.
Width = 9 in.
Length = 9 in.
The dimensions of the shipping box from least to greatest value are:
Height = 8 in.
Width = 11 in.
Length = 13 in.
How to find the dimensions of the box?The formula for the volume of a box are:
Volume = Length * Width * height
We are told that the equation that models the volume of the shipping box is 8(n + 2)(n + 4) = 1,144.
Thus:
8(n + 2)(n + 4) = 1144
8n² + 48n + 64 = 1144
8n² + 48n - 1080 = 0
Factorizing gives us:
8[(n - 9)(n + 15)] = 0
Solving for n gives us:
n = 9 or -15 inches
The dimensions of the helmet box are as follows
Width = 9 in.
Length = 9 in.
Height = 8 in.
The dimensions of the shipping box ordered are as follows;
Width = 9 + 2 = 11 in.
Length = 9 + 4 = 13 in.
Height = 8 in.
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Complete question is:
As an employee of a sporting goods company, you need to order shipping boxes for bike helmets. Each helmet is packaged in a box that is n inches wide, n inches long, and 8 inches tall. The shipping box you order should accommodate the boxed helmets along with some packing material that will take up an extra 2 inches of space along the width and 4 inches of space along the length. The height of the shipping box should be the same as the helmet box. The volume of the shipping box needs to be 1,144 cubic inches. The equation that models the volume of the shipping box is 8(n + 2)(n + 4) = 1,144.
using your solution from question 1, enter the dimensions of the bike helmet shipping box. enter the lengths in order
from least to greatest value.
use determinants to find out if the matrix is invertible.| 5 -2 3|| 1 6 6||0 -10 -9|the determinant of the matrix is
The determinant is non-zero (-30 ≠ 0), the matrix is invertible.
To find the determinant of the matrix, we can use the Laplace expansion along the first row:
| 5 -2 3 |
| 1 6 6 |
| 0 -10 -9 |
= 5 * | 6 6 | - (-2) * | 1 6 | + 3 * | 1 6 |
| -10 -9 | | 0 -9 | | 0 -10 |
= 5[(6*(-9)) - (6*(-10))] - (-2)[(1*(-9)) - (60)] + 3[(1(-10)) - (6*0)]
= -30
Since the determinant is non-zero (-30 ≠ 0), the matrix is invertible.
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The determinant of the given matrix is 132.
To find the determinant of the matrix, we can use the formula for a 3x3 matrix:
| a b c |
| d e f |
| g h i |
Determinant = a(ei - fh) - b(di - fg) + c(dh - eg)
In this case, the matrix is:
| 5 -2 3 |
| 1 6 6 |
| 0 -10 -9 |
Using the formula, we can calculate the determinant as follows:
Determinant = 5(6(-9) - (-10)(6)) - (-2)(1(-9) - (-10)(6)) + 3(1(-10) - 6(0))
Simplifying the expression, we get:
Determinant = 5(-54 + 60) - (-2)(-9 + 60) + 3(-10 - 0)
= 5(6) - (-2)(51) + 3(-10)
= 30 + 102 + (-30)
= 132
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The value of a cellular phone depreciates at a rate of 13% every month. If a new phone costs $300, which expressions model the value of the phone, after t years?
300(0. 87)/12 and 300(0. 1880)t
300(0. 87)t/12 and 300(0. 9885)t 300(0. 87)124 and 300(0. 1880)t
300(0. 87) 12 and 300(0. 9885)t
The correct expressions which model the value of the phone after t years are given by 300(0.87)t/12 and 300(0.9885)t. Value of a cellular phone depreciates at a rate of 13% every month.
Given a cellular phone's value depreciates at a rate of 13% every month. So, the phone's value will decrease by 13% of its original value every month. Therefore, the equation for the phone's value after t years is given by:
V(t) = $300 × (1 - 0.13)ᵗ, where t is the time in years.
The given expressions, 300(0. 87)/12 and 300(0. 1880)t 300(0. 87)t/12 and 300(0. 9885)t 300(0. 87)124 and 300(0. 1880)t 300(0. 87) 12 and 300(0. 9885)t. Do not model the value of the phone after t years. Therefore, the correct answer is 300(0. 87)t/12 and 300(0. 9885)t.
The value of a cellular phone depreciates at a rate of 13% every month, which means that the remaining value of the phone after one month is 87% of the original value. Therefore, to calculate the value after t years, the equation
V(t) = $300 × (1 - 0.13)ᵗ should be used.
By plugging in the time t in years, we can get the remaining value of the phone. The first option (300(0.87)/12 must be corrected because it only calculates the phone's value after one month, which is not the question asked. Therefore, the correct expression that model the phone's value after t years is given by 300(0.87)t/12 and 300(0.9885)t.
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