Answer:
21
Step-by-step explanation:
I haven't done this in a long time but this is what I know: the discount would overall be 25%. So, you set it up by .25(84) = 21. Therefore the jacket would cost $21.
I hope this is right and helps!
Determine a condition on |x - 4| that will assure that:
(a)∣∣x−2∣∣<21,
(b)∣∣x−2∣∣<10−2.
Given the expression |x - 4|, condition on |x - 4| that will assure that:(a)|x - 2| < 2/1(b)|x - 2| < 0.01
Given expression |x - 4|, the two possible values are: x - 4 if x > 4 -(x - 4) if x < 4Let us solve each part of the question separately:
(a)Part (a) can be expressed as follows:|x - 2| < 2/1Subtracting 2 from both sides of the in equality |x - 2| - 2 < 0Adding 4 to both sides of the inequality. |x - 2| - 2 + 4 < 0|x - 2| - 2 + 4 = |x - 4| < 0Since it is impossible to have an absolute value less than 0, therefore there is no solution.
(b)Part (b) can be expressed as follows:|x - 2| < 0.01 Subtracting 2 from both sides of the inequality |x - 2| - 2 < -0.01Adding 4 to both sides of the inequality. |x - 2| - 2 + 4 < -0.01|x - 2| - 2 + 4 = |x - 4| < -0.01Since it is impossible to have an absolute value less than 0, therefore there is no solution.
Thus, there are no solutions for the given conditions.
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Slove the system of the linear equations by either sus substitution or elimination 8x-12y=20 4x-4y=-4
Answer:
x = -8 and y = -7
Step-by-step explanation:
I will solve your system by substitution.
(You can also solve this system by elimination.)
8x−12y=20;4x−4y=−4
Step: Solve8x−12y=20for x:
8x−12y+12y=20+12y(Add 12y to both sides)
8x=12y+20
8x
8
=
12y+20
8
(Divide both sides by 8)
x=
3
2
y+
5
2
Step: Substitute
3
2
y+
5
2
forxin4x−4y=−4:
4x−4y=−4
4(
3
2
y+
5
2
)−4y=−4
2y+10=−4(Simplify both sides of the equation)
2y+10+−10=−4+−10(Add -10 to both sides)
2y=−14
2y
2
=
−14
2
(Divide both sides by 2)
y=−7
Step: Substitute−7foryinx=
3
2
y+
5
2
:
x=
3
2
y+
5
2
x=
3
2
(−7)+
5
2
x=−8(Simplify both sides of the equation)
Let f(a) = { x) = S1 0 if 0 < x < 1/2 if 1/2 < x < T. Find the Fourier cosine series and the Fourier sine series. What is the full Fourier series? Explicitly characterize the values of x E R where each converges pointwise.
Given function is { x) = {0, if 0 < x < 1/2, 1, if 1/2 < x < 1}.
Step-by-step explanation: Given function is { x) = {0, if 0 < x < 1/2, 1, if 1/2 < x < 1}.
The function is an even function because the function is symmetric with respect to the y-axis (i.e.) { -x) = {x). So, the Fourier series has only cosine terms. Therefore, the Fourier cosine series of the given function is given by:
f(x) = a0/2 + Σ an cos(nπx/L),
where L is the period of the function.
Since the function is even, the Fourier series reduces to f(x) = a0/2 + Σ an cos(nπx/L) ...(1) , where a0 = 1/L ∫f(x)dx, an = 2/L ∫f(x)cos(nπx/L)dx for n = 1, 2, 3, ..., n. Let L = 1,
then a0 = 1/1 ∫0^1 f(x)dx = 1/2 an = 2/1 ∫0^1 f(x)cos(nπx)dx for n = 1, 2, 3, ..., n.
a1 = 2 ∫1/2^1 cos(nπx)dx = 1/nπ sin(nπx) from 1/2 to 1
= [1/nπ sin(nπ/2) - 1/nπ sin(0)]
= 2/nπ sin(nπ/2)
Hence, the Fourier cosine series is given by f(x) = 1/2 + 2/π ∑[sin(nπ/2)/n] cos(nπx) ...(2)for n = 1, 2, 3, ...Similarly, the Fourier sine series of the given function is given by: f(x) = Σ bn sin(nπx/L)where L is the period of the function. Since the function is even, there are no sine terms in the Fourier series. So, the Fourier sine series is zero, i.e., bn = 0 for n = 1, 2, 3, ....Hence, the full Fourier series is the same as the Fourier cosine series, which is given byf(x) = 1/2 + 2/π ∑[sin(nπ/2)/n] cos(nπx) ...(3)for n = 1, 2, 3, ...The Fourier series converges pointwise to f(x) for x in (0, 1/2) U (1/2, 1).The Fourier series does not converge at x = 0 and x = 1/2 because the function is not continuous at these points.
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Find the perimeter and thank
Answer:
12
..................................................
Step-by-step explanation:
2 + 2 + 1 + 2 + 1 + 4 = 12
Answer:
12 centimeters
Step-by-step explanation:
The double dashes are both the same number. Since the base is 4cm and they have to be two of the same number, the double dashes are each 2cm long. Meanwhile, the height is 2cm, and the single dashes are two of the same numbers (but not 2cm, because that's what the double dashes are). So, each dash must be 1cm long. When you add them up: [tex]4+2+2+2+1+1=12[/tex]
At a certain university, the average cost of books was $330 per
student last semester and the population standard deviation was $75. This
semester a sample of 50 students revealed an average cost of books of $365 per
student. The Dean of Students believes that the costs are greater this semester.
What is the test value for this hypothesis?
The test value for this hypothesis is 3.0.
What is the test value for the hypothesis that the average cost of books is greater this semester at a certain university?The test value for this hypothesis can be calculated using the formula for a one-sample t-test:
test value = (sample mean - population mean) / (sample standard deviation / sqrt(sample size))
Population mean (last semester) = $330Sample mean (this semester) = $365Sample size = 50Population standard deviation = $75Calculating the test value:
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pls pls pls, I beg you to answer this question only if you know the correct answer please please please I beg you
Answer:
36 cubic feet
Step-by-step explanation:
Answer:
To find volume use the solution of l x w x h
Length x Width x Height
Step-by-step explanation:
16. 2 x 3 x 6 = 36 cubic feet
???. 5/8 x 3/4 x 2 = 15/16
???. 2 x 1 1/4 x 1 1/2 = 3 3/4 cubic inches
25.
1 = 4.89 / 3 = 1.63
3 = $4.89
9 = 4.89 + 4.89 + 4.89 = 14.67
10 = 14.67 + 1.63 = $16.30
???. Interquartile Range = Q3 - Q1
65 - 62 = 3
If i remember correctly
$10 000 is invested at 3.75% compounded semi-annually. How long would it take for the principal to triple in value.
The time it takes for the principle to triple in value is t = 18.792 years.
To determine how long it would take for a principal of $10,000 to triple in value at an interest rate of 3.75% compounded semi-annually, we can use the compound interest formula. By rearranging the formula and solving for time, we can find the answer.
The compound interest formula can be expressed as A = P(1 + r/n)^(nt), where A is the final amount, P is the principal, r is the interest rate, n is the number of compounding periods per year, and t is the time in years.
In this case, we have P = $10,000, r = 3.75% (or 0.0375 as a decimal), and n = 2 since compounding occurs semi-annually.
We want to find the time it takes for the principal to triple, so A = 3P. Substituting the known values into the compound interest formula, we have:
3P = P(1 + r/n)^(nt)
Canceling out the common factor of P on both sides, we get:
3 = (1 + r/n)^(nt)
Taking the natural logarithm (ln) of both sides to isolate the exponent, we have:
ln(3) = nt ln(1 + r/n)
Now, we can solve for t by dividing both sides of the equation by n ln(1 + r/n) and simplifying:
t = ln(3) / (n ln(1 + r/n))
Substituting the given values of r = 0.0375 and n = 2, we can calculate the value of t.
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98 = x + 55 what is it????
Answer:
x = 43
Step-by-step explanation:
x = 98 - 55
x = 43
Answer:
x=43
Step-by-step explanation:
have a nice day and stay safe:)
Let X and Y be two continuous random variables with joint probability density function Calculate the positive constant b. Show the result with at least two decimal places. 5 -bcx cb - bzycb f(x,y) = 0 otherwise
The positive constant b is 0. This is obtained by setting the coefficient of the xy^2 term to zero in the equation derived from equating the integral of the joint probability density function to 1.
To compute the positive constant b, we need to calculate the integral of the joint probability density function (pdf) over the entire probability space and set it equal to 1 since it represents a valid probability density.
∫∫ f(x, y) dx dy = 1
Since the joint pdf is defined as:
f(x, y) = 5 - bcx * cb - bzycb
And it is zero otherwise, we can set up the integral as follows:
∫∫ (5 - bcx * cb - bzycb) dx dy = 1
To solve this integral, we need to determine the limits of integration. Since the joint pdf is not specified outside of the equation, we assume it is defined for all real values of x and y.
∫∫ (5 - bcx * cb - bzycb) dx dy = ∫∫ 5 - bcx * cb - bzycb dx dy
Integrating with respect to x first:
∫ (5x - bcx^2/2 * cb - bzy * cb) ∣∣ dy = 1
Now integrating with respect to y:
(5xy - bcxy^2/2 * cb - bzy^2/2 * cb) ∣∣ dy = 1
Since this equation holds for all real values of x and y, we can ignore the limits of integration.
Next, we can solve for b by equating the integral to 1 and simplifying:
(5xy - bcxy^2/2 * cb - bzy^2/2 * cb) = 1
Simplifying further:
5xy - bcxy^2/2 - bzy^2/2 = 1
Now, we can compare the coefficients of the terms on both sides of the equation:
- bc/2 = 0 (since there is no xy^2 term on the right-hand side)
Solving for b:
bc = 0
Since we are looking for a positive constant b, we can conclude that b = 0.
Therefore, the positive constant b is 0.
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: 1. Two equilateral triangles are always similar. 2. The diagonals of a rhombus are perpendicular to each other. 3. For any event, 0
Both the given statements are true
1. Two equilateral triangles are always similar: True.
An equilateral triangle is a triangle in which all three sides are equal. Since two equilateral triangles have the same shape and size, they are always similar. Similarity means that the corresponding angles are equal, and the corresponding sides are in proportion.
2. The diagonals of a rhombus are perpendicular to each other: True.
In a rhombus, opposite sides are parallel, and all sides have equal length. The diagonals of a rhombus bisect each other at right angles, which means they are perpendicular to each other. This property holds true for all rhombuses, regardless of their size or orientation.
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Given question is incomplete, the complete question is below
State true or false
1. Two equilateral triangles are always similar.
2. The diagonals of a rhombus are perpendicular to each other.
There are 30 students in Mrs. Rodriguez’s class. 20% got an A on the test. How many students got an A?
Answer
6.
Steps
30/100×30
=6
Answer:
6
Step-by-step explanation:
There are 30 students
So,
20÷100×30=6
The dot plot shown displays the amount of money,
in millions of dollars, that different companies
spend on television advertising in one year. Which
of the following statements describe the data set?
Answer:
44
Step-by-step explanation:
because it a millon and not a bilolon
The box-and-whisker plots below show the test scores for Mr. Scott's three math classes.
Based on this information, with which class or classes does Mr. Scott most need to review the material covered on the test?
A. third period
B. first period
C. third and fourth periods
D. fourth period
Answer:
A. Third period
Step-by-step explanation:
- hope this helped!
Answer:
3rd
Step-by-step explanation:
What is the volume of the cylinder above?
A. 168 units^3
B. 96 units^3
C. 84 units^3
D. 112 units^3
The volume of the oblique cylinder is calculated as: B. 96π units³.
What is the Volume of a Cylinder?Volume = πr²h, where h is the height and r is the radius of the given cylinder.
Given the following:
Radius = 4 unitsHeight = 6 unitsVolume = πr²h = π(4²)(6)
Volume = 96π units³ (option B)
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What is the slope of the line connecting the pair of points (0,7) (4,12)
Answer: 5/4
Step-by-step explanation: That should be right because I have big brain. Mark brainlist please :)
Which values of N and p define a random graph ensemble G(N, p) with average degree (k) = 40 and variance of the degree distribution o2 = 50? = Select one: = a. p = 0.25, N = 501 b. p = 1/10, N = 401 p = 1/5, N = 501 = = C. = d. None of the above.
The values of N and p that define the random graph ensemble G(N, p) with an average degree (k) of 40 and a variance of the degree distribution (σ²) of 50 are N = 201 and p = 0.2.
The values of N and p that define a random graph ensemble G(N, p) with an average degree (k) of 40 and a variance of the degree distribution (σ²) of 50, we can use the following formulas:
k = (N-1) × p
σ² = (N-1) × p × (1-p)
Plugging in the given values:
k = 40
σ² = 50
We can solve these equations to find the values of N and p:
From the first equation:
40 = (N-1) × p
From the second equation:
50 = (N-1) × p × (1-p)
By substituting the value of (N-1) × p from the first equation into the second equation, we can solve for p.
40 = 50 × (1-p)
1-p = 40/50
1-p = 0.8
p = 1 - 0.8
p = 0.2
Now, we can substitute the value of p back into the first equation to solve for N:
40 = (N-1) × 0.2
200 = N-1
N = 200 + 1
N = 201
Therefore, the correct values of N and p that define the random graph ensemble G(N, p) with an average degree (k) of 40 and a variance of the degree distribution (σ²) of 50 are N = 201 and p = 0.2.
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There are 30 students going on a field trip. Each car can take 4 students. Which inequality would be used to find the least number of cars needed?
Please Help! I'll give Brainliest!
Answer:8 cars
Step-by-step explanation:
to find the least amount of cars dived 30/4 which equilds 7.5
Since there are 2 remaining students, an additional car will be needed bringing the total to 8 cars.
Rhonda and Laura are planning to watch two movies over the weekend from Laura's collection of 35 DVDs. Rhonda has two favorites among the collection. What is the probability that the girls would randomly choose those two movies to watch? Enter a fraction or round your answer to 4 decimal places, if necessary.
The probability that the girls would randomly choose their two favorite movies to watch is 0.0034.
The number of favorable outcomes is 2 (since Rhonda has two favorite movies).
Using the combination formula:
C(n, r) = n! / (r! * (n - r)!)
In this case, n = 35 (total number of movies) and r = 2 (number of movies to be chosen).
C(35, 2) = 35! / (2! x (35 - 2)!)
C(35, 2) = 35! / (2! x 33!)
= (35 x 34 x 33!) / (2! x 33!)
= (35 x 34) / 2
= 595
Therefore, there are 595 possible outcomes when choosing any two movies from Laura's collection.
Now, Probability = Favorable Outcomes / Total Outcomes
Probability = 2 / 595
Therefore, the probability that the girls would randomly choose their two favorite movies to watch is 0.0034.
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Consider the curve defined by 2x2+3y2−4xy=36 .
(a) Show that ⅆyⅆx=2y−2x3y−2x .
(b) Find the slope of the line tangent to the curve at each point on the curve where x=6
(c) Find the positive value of x at which the curve has a vertical tangent line. Show the work that leads to your answer.
(a) `dy/dx = (2y - 2x)/(3y - 2x)`.
(b) The slope of the tangent line at points where x = 6 is 0.
(c) the curve has a vertical tangent line when x = (3/2)y.
(a) To show that `dy/dx = (2y - 2x)/(3y - 2x)`, we need to find the derivative of `y` with respect to `x`. We can do this by implicitly differentiating the given equation.
Differentiating both sides of the equation with respect to `x`, we get:
4x(dx/dx) + 6y(dy/dx) - 4[(dx/dx)y + x(dy/dx)] = 0
Simplifying the equation, we have:
4x + 6y(dy/dx) - 4xy - 4xy - 4x(dy/dx) = 0
Rearranging the terms and combining like terms, we get:
(6y - 4x)(dy/dx) = 8x - 8xy
Dividing both sides by (6y - 4x), we obtain:
dy/dx = (8x - 8xy)/(6y - 4x)
Simplifying further, we have:
dy/dx = (2x(4 - 4y))/(2(3y - 2x))
Canceling out the common factors, we get:
dy/dx = (2y - 2x)/(3y - 2x)
Therefore, `dy/dx = (2y - 2x)/(3y - 2x)`.
(b) To find the slope of the tangent line at the points where x = 6, substitute x = 6 into the expression we found for `dy/dx` in part (a):
dy/dx = (2(6) - 2(6))/(3y - 2(6))
= 0/(3y - 12)
= 0
The slope of the tangent line at points where x = 6 is 0.
(c) To find the value of x at which the curve has a vertical tangent line, we need to find the point(s) where the slope `dy/dx` is undefined. In other words, we need to find the values of x where the denominator of `dy/dx` becomes zero.
Setting the denominator equal to zero and solving for x:
3y - 2x = 0
2x = 3y
x = (3/2)y
So, the curve has a vertical tangent line when x = (3/2)y.
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Let p be a real number with 0 < p < 1, and n an integer which is greater than or equal to one. Recall that a binomial random variable X is one for which Prob(X = k): = (*) p* (1 k (1 − p)n-k for k = 0,1, n, and Prob(X x) for any x other than one of these n+1 = possible values.
a. In the case n 3 and p = 3/4, compute E(X) and Var(X).
b. Using (a) as a model case, compute E(X) and Var(X) for any value of p and n. (Hint: Write the formula from the binomial theorem and use differentiation.)
c. What is the value of p such that Var(X) is the smallest?
d. For any t > 0, compute E(etx). (Hint: Use the binomial theorem.)
The expected value E(X) of a binomial random variable X can be calculated as n * p, and the variance Var(X) can be calculated as n * p * (1 - p). These formulas can be generalized for any values of p and n, and the value of p that minimizes the variance can be found by setting the derivative of Var(X) with respect to p equal to zero.
a. In part (a), we are given specific values for n (3) and p (3/4). The expected value E(X) of a binomial random variable X can be calculated as n * p, which gives us:
3 * 3/4
= 2.25.
The variance Var(X) can be calculated as n * p * (1 - p), which gives us:
3 * 3/4 * (1 - 3/4)
= 0.5625.
b. In part (b), we generalize the calculation of E(X) and Var(X) for any value of p and n. Using the binomial theorem, we can expand (p + (1 - p))ⁿ and differentiate it to find the coefficients for E(X) and Var(X).
c. To find the value of p that minimizes the variance Var(X), we can take the derivative of Var(X) with respect to p binomial, set it equal to zero, and solve for p. This will give us the value of p that minimizes the variance.
d. For any t > 0, we can calculate E(e^(tx)) using the binomial theorem by substituting e^t for p in the expansion of (p + (1 - p))ⁿ. This will give us the expected value of the exponential of tx.
Therefore, the expected value E(X) of a binomial random variable X can be calculated as n * p, and the variance Var(X) can be calculated as n * p * (1 - p). These formulas can be generalized for any values of p and n, and the value of p that minimizes the variance can be found by setting the derivative of Var(X) with respect to p equal to zero.
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10
Write the equation that describes this situation. Use^for exponents.
7000 dollars is placed in an account with an annual interest rate of 6.5%
for 15 years.
Answer:
15(6.5% * 7000)+7000=y
Step-by-step explanation:
15(6.5% * 7000)+7000=y
im not sure tho
Consider the case of equally likely transmission of multilevel signaling over AWGN channel with Variance , and mean . The signaling used is M=4 with the data rate of . The symbols are assigned the pulse values: -2v -1v +2v +1v. Develop the expression for the optimum threshold values. Write the expression of correct transmission when symbol level -2v was transmitted. Write the expression for the total probability of error. Evaluate the total probability of error when =0.40 and =0.
In multilevel signaling over an Additive White Gaussian Noise (AWGN) channel, the received signal can be represented as:
Y = X + N
where Y is the received signal, X is the transmitted signal, and N is the AWGN with zero mean and variance σ^2.
In this case, M = 4, which means we have 4 symbols: -2v, -v, +2v, +v. The pulse values assigned to these symbols are: -2v, -v, +2v, +v.
To find the optimum threshold values, we need to consider the decision regions between adjacent symbols. Let's denote the threshold values as T1, T2, and T3, corresponding to the decision boundaries between -2v and -v, -v and +2v, and +2v and +v, respectively.
For correct transmission of the symbol -2v, the received signal Y should be greater than T1 and less than or equal to T2. Mathematically, this can be expressed as:
T1 < Y ≤ T2
The probability of correct transmission for the symbol -2v can be obtained by integrating the probability density function (PDF) of the received signal Y over the region T1 < Y ≤ T2.
Now, let's find the expression for the total probability of error. The total probability of error (P_e) can be obtained by summing the probabilities of error for each symbol. In this case, we have four symbols, so the expression for P_e is:
[tex]P_e = P_error(-2v) + P_error(-v) + P_error(+2v) + P_error(+v)[/tex]
where P_error(-2v) is the probability of error for symbol -2v, P_error(-v) is the probability of error for symbol -v, and so on.
Finally, to evaluate the total probability of error when σ^2 = 0.40 and v = 0, we need more information. Specifically, we need the signal-to-noise ratio (SNR) or the value of σ^2 in order to proceed with the calculation.
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et J2= {0, 1}. Find three functions f, g and h such that f : J2→
J2, g : J2→ J2, and h : J2→ J2, and f = g = h
There are many possible solutions, but one example in the case of three functions f, g, and h would be: f(0) = 0, f(1) = 1g(0) = 1, g(1) = 0h(0) = 0, h(1) = 1
We have the set J2 = {0,1} and we need to estimate three functions f, g, and h such that f:
J2→ J2, g: J2→ J2, and h:
J2→ J2, and f = g = h.
To do this, we can simply assign values to each element of the set J2 for each of the three functions. For example, we can let f(0) = 0 and f(1) = 1, which means that the function f maps 0 to 0 and 1 to 1. We can also let g(0) = 1 and g(1) = 0, which means that the function g maps 0 to 1 and 1 to 0.
Finally, we can let h(0) = 0 and h(1) = 1, which means that the function h maps 0 to 0 and 1 to 1. Note that all three functions have the same values for each element in J2, so we can say that f = g = h.
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What is the difference, in meters, between the length of the longest line and the length of the shortest line?
Answer:
[tex]Range = 3.169m[/tex]
Step-by-step explanation:
Given
See attachment for complete question
Required
Determine the difference between the shortest and the longest
This question implies that we calculate the range.
[tex]Range = Longest - Shortest[/tex]
From the table, we have:
[tex]Longest = 8.7m[/tex]
[tex]Shortest = 5.531m[/tex]
So, we have:
[tex]Range = 8.7m- 5.531m[/tex]
[tex]Range = 3.169m[/tex]
The elephants at the Putnam Zoo are fed 9 1/2 barrels of corn each day. The buffalo are fed 1/2 as much corn as the elephants. How many barrels of corn are the buffalo fed each day?
Answer:
7/20
Step-by-step explanation:
True or False: All horizontal lines have a y-intercept.
Answer:
If you are looking at a graph then yes it will have a y-axis
Step-by-step explanation:
Answer:
True.
Step-by-step explanation:
A horizontal line goes on infinitely on both ends will eventually cross the y-axis, making a y-intercept.
Ling measured a shopping center and made a scale drawing. The scale of the drawing was 1 millimeter: 3 meters. The actual width of the parking lot is 42 meters. How wide is the parking lot in the drawing?
Answer:
14
Step-by-step explanation:
42:?
3:1
42/3=14
42:14
3:1
The probability of event A is Pr(A)=1/3 The probability of the union of event A and event B, namely A UB, is Pr(AUB)=5/6 Suppose that event A and event B are disjoint. Pr(B) = [....]
Given that the probability of event A is Pr(A) = 1/3 and the probability of the union of event A and event B, namely AUB, is Pr(AUB) = 5/6. The probability of event B is Pr(B) = 2/3.
Suppose that event A and event B are disjoint.
The probability of event B is Pr(B) = 1/2.
To find the probability of event B.
For disjoint events A and B, we know that A ∩ B = Φ (empty set).
Thus, we can express the union of A and B as: AUB = A + B, where A and B are disjoint.
In general, the probability of the union of two events can be expressed as: P(AUB) = P(A) + P(B) - P(A ∩ B).
For disjoint events, the intersection of the events is always an empty set.
Thus, P(A ∩ B) = 0.
Using this information, we can write:
P(AUB) = P(A) + P(B) - P(A ∩ B)
= P(A) + P(B) - 0
= P(A) + P(B)
Given P(A) = 1/3 and P(AUB) = 5/6, we can solve for P(B) as follows:
5/6 = P(A) + P(B)
=> P(B) = 5/6 - P(A)
=> P(B) = 5/6 - 1/3
=> P(B) = 2/3
Thus, the probability of event B is Pr(B) = 2/3.
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A cuboid made from metal plates with the dimensions x, 3x and y cm has a surface area 450 cm. Find the volume of the cuboid as a function of x.
The volume of the cuboid as a function of x is V(x) = x * 3x * y.
the volume of the cuboid as a function of x is V(x) = 675/4 - (9/4)x^2.
The surface area of the cuboid is given as 450 cm, which can be expressed as:
2(x * 3x) + 2(x * y) + 2(3x * y) = 450.
Simplifying this equation, we get:
6x^2 + 2xy + 6xy = 450,
6x^2 + 8xy = 450,
3x^2 + 4xy = 225.
Now, we need to express y in terms of x. From the given dimensions, we know that the surface area is formed by six rectangular faces of the cuboid. Therefore, the length of one face is x, the width is 3x, and the remaining face (height) is y.
To find y, we can use the equation for the surface area. Rearranging the equation above, we have:
3x^2 + 4xy = 225,
y(4x) = 225 - 3x^2,
y = (225 - 3x^2) / (4x).
Now we can substitute the value of y into the expression for the volume:
V(x) = x * 3x * [(225 - 3x^2) / (4x)].
Simplifying further:
V(x) = (3/4) * (225 - 3x^2),
V(x) = 675/4 - (9/4)x^2.
Therefore, the volume of the cuboid as a function of x is V(x) = 675/4 - (9/4)x^2.
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I take out a 4,000 loan. It's a simple interest loan. Find the interest I get after 4 years at a rate of 6%
Answer:
960
Step-by-step explanation:
Let P, R and T denote principal amount, rate of interest and time period.
Principal amount of loan (P) = 4,000
Time period (T) = 4 years
Rate of interest (R) = 6%
Simple interest is calculated using the following formula:
Simple interest [tex]=\frac{4000(4)(6)}{100} =960[/tex]
So,
Simple interest is equal to 960