Answer:
A. x = 3; y = 5; z = 9
Step-by-step explanation:
7 4 -1 32
4 1 -3 -10
1 2 1 22
Switch rows 1 and 3.
1 2 1 22
4 1 -3 -10
7 4 -1 32
R2 --> -4 × R1 + R2
1 2 1 22
0 -7 -7 -98
7 4 -1 32
R3 --> -7 × R1 + R3
1 2 1 22
0 -7 -7 -98
0 -10 -8 -122
R2 --> -1/7 × R2
1 2 1 22
0 1 1 14
0 -10 -8 -122
R1 --> -2 × R2 + R1
1 0 -1 -6
0 1 1 14
0 -10 -8 -122
R3 --> 10 × R2 + R3
1 0 -1 -6
0 1 1 14
0 0 2 18
R3 --> 1/2 × R2
1 0 -1 -6
0 1 1 14
0 0 1 9
R2 --> -R3 + R2
1 0 -1 -6
0 1 0 5
0 0 1 9
R1 --> R1 + R3
1 0 0 3
0 1 0 5
0 0 1 9
Answer: A. x = 3; y = 5; z = 9
Activity 3.1.12. Let the polynomial maps S:P→P and T:P→P be defined by S(f(x))=(f(x)) 2
T(f(x))=3xf(x 2
) (a) Note that S(0)=0 and T(0)=0. So instead, show that S(x+1)
=S(x)+S(1) to verify that S is not linear. (b) Prove that T is linear by verifying that T(f(x)+g(x))=T(f(x))+T(g(x)) and T(cf(x))=cT(f(x))
(a) S is not linear because S(x+1) ≠ S(x) + S(1).
(b) T is linear because it satisfies additivity and homogeneity: T(f(x) + g(x)) = T(f(x)) + T(g(x)) and T(cf(x)) = cT(f(x)).
(a) To show that S is not linear, we need to demonstrate that it does not satisfy the property of additivity.
Let's consider S(x+1):
S(x+1) = (x+1)² = x² + 2x + 1
Now let's evaluate S(x) + S(1):
S(x) + S(1) = x² + 2x + 1 + 1 = x² + 2x + 2
We can see that S(x+1) ≠ S(x) + S(1) since x² + 2x + 1 is not equal to x² + 2x + 2.
Therefore, S is not linear.
(b) To prove that T is linear, we need to verify that it satisfies the properties of additivity and homogeneity.
1. Additivity:
For any polynomials f(x) and g(x), we need to show that T(f(x) + g(x)) = T(f(x)) + T(g(x)).
Let's evaluate T(f(x) + g(x)):
T(f(x) + g(x)) = 3x(f(x) + g(x))²
= 3x(f(x)² + 2f(x)g(x) + g(x)²)
= 3xf(x)² + 6xf(x)g(x) + 3xg(x)²
Now let's evaluate T(f(x)) + T(g(x)):
T(f(x)) + T(g(x)) = 3xf(x)² + 3xg(x)²
We can see that T(f(x) + g(x)) = T(f(x)) + T(g(x)), which satisfies additivity.
2. Homogeneity:
For any polynomial f(x) and constant c, we need to show that T(cf(x)) = cT(f(x)).
Let's evaluate T(cf(x)):
T(cf(x)) = 3x(cf(x))²
= 3xc²f(x)²
= c²(3xf(x)²)
Now let's evaluate cT(f(x)):
cT(f(x)) = c(3xf(x)²)
We can see that T(cf(x)) = cT(f(x)), which satisfies homogeneity.
Therefore, T is linear.
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A newspaper published an article about a study in which researchers subjected laboratory gloves to stress. Among 212 vinyl gloves 65% leaked viruses. Among 212 latex gloves, 11% leaked viruses. Using the accompanying display of the technology results, and using a 0.10 significance level, test the claim that vinyl gloves have a greater virus leak rate than latex gloves. Let vinyl gloves be population 1.
Technology Results
Pooled proportion: 0.41
Test statistics, z: 10.9685
Critical, z: 1.2816
P-value: 0.0000
80% Confidence interval: a) What are the null and alternative hypothesis?
b) Identify the test statistic.
a) The null hypothesis (H₀) in this study would be that there is no difference in the virus leak rate between vinyl gloves and latex gloves. The alternative hypothesis (H₁), on the other hand, would state that vinyl gloves have a greater virus leak rate than latex gloves.
b) The test statistic used in this study is the z-score, which is a measure of how many standard deviations a particular observation or sample proportion is away from the mean.
The formula for calculating the z-score in this case is:
z = (p₁ - p₂) / √(p * (1 - p) * (1/n₁ + 1/n₂))
Where:
p₁ and p₂ are the sample proportions of virus leaks for vinyl gloves and latex gloves, respectively.
p is the pooled proportion, calculated as (x₁ + x₂) / (n₁ + n₂), where x₁ and x₂ are the number of virus leaks and n₁ and n₂ are the respective sample sizes.
n₁ and n₂ are the sample sizes for vinyl gloves and latex gloves, respectively.
To perform the hypothesis test, we compare the calculated test statistic (z) with the critical value of the z-score at a significance level of 0.10. In this case, the critical z-value is 1.2816, which is obtained from standard normal distribution tables.
If the calculated z-score is greater than the critical value, we reject the null hypothesis in favor of the alternative hypothesis, suggesting that there is evidence to support the claim that vinyl gloves have a greater virus leak rate than latex gloves.
In this study, the calculated z-score is 10.9685, which is significantly greater than the critical z-value of 1.2816. Consequently, we can reject the null hypothesis and conclude that there is strong evidence to support the claim that vinyl gloves have a greater virus leak rate than latex gloves.
The p-value of 0.0000 indicates that the probability of obtaining a test statistic as extreme as the observed value, assuming the null hypothesis is true, is essentially zero. This further strengthens the evidence against the null hypothesis and supports the alternative hypothesis.
The 80% confidence interval is not directly relevant to the hypothesis test in this case. However, it provides a range of plausible values for the true difference in virus leak rates between vinyl and latex gloves, with a level of confidence of 80%.
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Compute the following: \( \int \sin ^{2}(x) d x \) Compute the following: \( \int \cos ^{2}(x) \sin (2 x) d x \)
1. The integral is (1/2)x - (1/4)sin(2x) + C. 2. The integral becomes -(1/4) cos(2x) - (1/8)cos(4x) + C
1. To compute the integral ∫sin²(x) dx, we can use the power reduction formula. The formula states that sin²(x) = (1/2) - (1/2)cos(2x). Applying this formula, we have:
∫sin²(x) dx = ∫(1/2) - (1/2)cos(2x) dx
Integrating term by term, we get:
= (1/2)∫dx - (1/2)∫cos(2x) dx
The integral of dx is x, and the integral of cos(2x) with respect to x is (1/2)sin(2x). Therefore, the integral becomes:
= (1/2)x - (1/4)sin(2x) + C
where C is the constant of integration.
2. To compute the integral ∫cos²(x) sin(2x) dx, we can use the double-angle formula. The formula states that cos(2x) = 2cos²(x) - 1. Rearranging this equation, we have cos²(x) = (1/2) + (1/2)cos(2x).
Now, we substitute this expression for cos²(x) into the integral:
∫cos²(x) sin(2x) dx = ∫[(1/2) + (1/2)cos(2x)] sin(2x) dx
Expanding the integrand, we have:
= (1/2)∫sin(2x) dx + (1/2)∫cos(2x)sin(2x) dx
The integral of sin(2x) with respect to x is -(1/2)cos(2x), and the integral of cos(2x)sin(2x) with respect to x is -(1/4)cos(4x). Thus, the integral becomes:
= -(1/4)cos(2x) - (1/8)cos(4x) + C
where C is the constant of integration.
The complete question is:
Compute the following: [tex]\( \int \sin ^{2}(x) d x \)[/tex]
Compute the following: [tex]( \int \cos ^{2}(x) \sin (2 x) d x \)[/tex]
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3) Simplify (x*2)5 / (x^2) (x^6) first and then evaluate for x=-3.
To simplify the expression (x^2)⁵ / (x^2) (x^6), we can apply the laws of exponents.
When dividing exponential expressions with the same base, we subtract the exponents. Therefore, we have:
(x^2)⁵ / (x^2) (x^6) = x^(2*5 - 2 - 6) = x^(-1)
To evaluate this expression for x = -3, we substitute -3 in place of x:
(-3)^(-1) = 1/(-3) = -1/3
Therefore, the simplified expression (x^2)⁵ / (x^2) (x^6) evaluated for x = -3 is -1/3.
Please solve the following problem related to cost-volume analysis 2. A producer of pens has fixed costs of $36,000 per month which are allocated to the operation and variable costs are $1.60 per pen. (a) Find the break-even quantity if pens sell at $2.2 each. (b) Find the profit/loss if the company produces 65,000 pens and pens sell at $2.4 each? [Hint: Please read Example 3 on page 207-208 and Problems 2-3 on page 213.]
The break-even quantity for the producer of pens is 30,000 pens when sold at $2.2 each. If the company produces 65,000 pens and sells them at $2.4 each, the profit is $16,000.
(a) To find the break-even quantity, we need to determine the point at which the revenue equals the total cost. The total cost consists of fixed costs and variable costs per unit. In this case, the fixed costs are $36,000 per month, and the variable cost is $1.60 per pen. The selling price per pen is $2.2.
Let's denote the break-even quantity as 'Q'. The revenue is given by the equation: Revenue = Selling Price * Quantity = $2.2Q. The total cost is given by: Total Cost = Fixed Costs + Variable Cost per unit * Quantity = $36,000 + $1.60Q.
At the break-even point, the revenue equals the total cost: $2.2Q = $36,000 + $1.60Q. By rearranging the equation, we can solve for 'Q':
$2.2Q - $1.60Q = $36,000
$0.60Q = $36,000
Q = $36,000 / $0.60
Q = 60,000 / 0.60
Q = 100,000 pens
Therefore, the break-even quantity is 100,000 pens.
(b) To calculate the profit/loss when producing 65,000 pens and selling them at $2.4 each, we need to subtract the total cost from the total revenue.
Total revenue = Selling Price * Quantity = $2.4 * 65,000 = $156,000
Total cost = Fixed Costs + Variable Cost per unit * Quantity = $36,000 + $1.60 * 65,000 = $36,000 + $104,000 = $140,000
Profit/Loss = Total Revenue - Total Cost = $156,000 - $140,000 = $16,000
Therefore, if the company produces 65,000 pens and sells them at $2.4 each, the profit is $16,000.
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Find the volume V of the solid obtained by rotating the region bounded by the given curves about the specified line.
y =
4
x
, x = 7, x = 14, y = 0; about the x-axis
V =
Sketch the region, and then on your own sketch the solid and a typical disk or washer.
Given that we have to find the volume of the solid obtained by rotating the region bounded by the given curves about the specified line where: y = 4/x, x = 7, x = 14, y = 0 about the x-axis.
Volume obtained by rotating the region bounded by the curves about x-axis is given by: V = π∫[R(x)]² dx, where R(x) is the distance between the axis of rotation and the function whose graph is rotated, which is: y = 4/x
The lower limit of integration is a = 7 and the upper limit of integration is b = 14.
∴ The volume of the solid generated by rotating the region bounded by the given curves about the x-axis is given by: V = π∫[R(x)]² dx
V= π ∫[0 to 7] [4/x]² dx + π ∫[7 to 14] [4/x]² dx
Let us integrate the first integral, ∫[0 to 7] [4/x]² dx
= 16π∫[0 to 7] 1/x² dx
= 16π[-1/x] [0 to 7]
= 16π[(-1/7) - (-1/0)] = ∞
Hence, the integral diverges, the second integral is also of the same form, thus its value also diverges. Thus, the volume of the solid obtained is infinite.
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12 inches equals about how many inches
Answer:
Step-by-step explanation:
There are 12 inches in one foot. If you have 12 inches, and want to convert inches to feet, you would make a fraction of how many inches you have (12) compared to the number of inches you need for one foot (12). The fraction 12/12 is equal to 1. 12 inches is equal to 1 foot.
The time required to play a certain game is uniformly distributed between 20 and 44 minutes. Complete parts a through c below. a. Find the expected value and variance of the time to complete the game. (Type an integer or decimal rounded to two decimal places as needed.) b. What is the probability of finishing within 38 minutes? (Type an integer or decimal rounded to three decimal places as needed.) c. What is the probability that the game would take longer than 27 minutes? (Type an integer or decimal rounded to three decimal places as needed.)
a) The expected value is 32 and the variance is 24.
b) The probability of finishing within 38 minutes is 0.75.
c) The probability that the game would take longer than 27 minutes is approximately 0.708.
a. To find the expected value (mean) and variance of the time to complete the game, we can use the formulas for a uniform distribution.
The expected value (E) of a uniform distribution is the average of the lower and upper bounds. In this case,
E = (20 + 44) / 2 = 32.
The variance (Var) of a uniform distribution is calculated using the formula:
Var = [(upper bound - lower bound)^2] / 12. In this case, Var = [(44 - 20)^2] / 12 = 24.
Therefore, the expected value is 32 and the variance is 24.
b. To find the probability of finishing within 38 minutes, we can calculate the cumulative distribution function (CDF) at that point.
Since the distribution is uniform, the probability is equal to the relative length of the interval between the lower bound (20) and the given value (38) divided by the total length of the interval.
Probability = (38 - 20) / (44 - 20) = 18 / 24 = 0.75.
Therefore, the probability of finishing within 38 minutes is 0.75 or 75%.
c. To find the probability that the game would take longer than 27 minutes, we can subtract the probability of finishing within 27 minutes from 1.
Again, since the distribution is uniform, the probability is equal to the relative length of the interval between 27 and the upper bound (44) divided by the total length of the interval.
Probability = (44 - 27) / (44 - 20) = 17 / 24 ≈ 0.708.
Therefore, the probability that the game would take longer than 27 minutes is approximately 0.708 or 70.8%.
By substituting the given values into the appropriate formulas and calculations, we have determined that the expected value is 32, the variance is 24, the probability of finishing within 38 minutes is 0.75 (or 75%), and the probability that the game would take longer than 27 minutes is approximately 0.708 (or 70.8%).
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tree’s height grows continuously at a rate of 3% each month. In January it was 6 feet tall.
a. Write an equation for the tree’s height and use it to determine how tall it will be after a year. Remember that since the rate is for each month, you will need to define in months.
b. How long would it take for it to be double of the original height?
a. Equation for the tree's height is:
f(t) = 6(1+0.03)^t
Where f(t) is the height of the tree at time t months.
After a year (12 months), the height of the tree will be
f(12) = [tex]6(1+0.03)^{12}[/tex][tex]6(1+0.03)^t[/tex]
≈7.28$ feet tall.
b. The tree will be double its original height when its height is 12 feet.
The equation for this can be solved by setting f(t) = 12:
12 =[tex]6(1+0.03)^t[/tex]
Dividing by 6:
2 = [tex]1.03^t[/tex]
Taking logarithms (base 1.03) of both sides:
t =[tex]\frac{\ln 2}{\ln 1.03}[/tex]
≈ 22.6
So it will take around 23 months for the tree to be double its original height.
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On annual repayment: Assume that you borrow 50,000 JPY under the system of 5% yearly compound interest. (1) If you repay annually in the plan of principal equal payment and pay off at the 10th repayment, calculate the total amount of all 10 repayments. (2) If you repay annually 8,000 in the plan of total (principal and interest) equal payment, you will pay off at 8th payment. How much is your final(8th) payment?
(1) On annual repayment: Assume that you borrow 50,000 JPY under the system of 5% yearly compound interest.
If you repay annually in the plan of principal equal payment and pay off at the 10th repayment, the total amount of all 10 repayments can be calculated as follows:
First, we need to calculate the annual payment amount.
This can be done using the formula below:A = (P * r) / [1 - (1 + r)^(-n)]where, P = principal amount, r = interest rate per period, and n = total number of payments
In this case, P = 50,000, r = 5%, and n = 10.
Plugging these values in the formula above,
we get:A = (50,000 * 0.05) / [1 - (1 + 0.05)^(-10)]A = 6,306.85 JPY The annual payment amount is 6,306.85 JPY.
Now, we can calculate the total amount of all 10 repayments by multiplying the annual payment amount by the total number of payments (i.e. 10):
Total amount = Annual payment amount * Total number of payments Total amount = 6,306.85 JPY * 10 Total amount = 63,068.46 JPY
Therefore, the total amount of all 10 repayments is 63,068.46 JPY.
(2) On annual repayment: Assume that you borrow 50,000 JPY under the system of 5% yearly compound interest.
If you repay annually 8,000 in the plan of total (principal and interest) equal payment, you will pay off at 8th payment. We need to calculate the final (8th) payment using the formula below:
Final payment = Total payment - [ (Total payment * (1 + r)^(n - k)) - (P * (1 + r)^k)] / rwhere, P = principal amount, r = interest rate per period, n = total number of payments, and k = number of payments made
In this case, P = 50,000, r = 5%, n = 8, and k = 7.
Also, the total payment amount is given as 8,000 JPY.
Plugging these values in the formula above,
we get:Final payment = 8,000 - [ (8,000 * (1 + 0.05)^(8 - 7)) - (50,000 * (1 + 0.05)^7)] / 0.05
Final payment = 7,781.09 JPY
Therefore, the final (8th) payment is 7,781.09 JPY.
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Through literature, justify the selection of water as a
solvent to absorb H2S
from the natural gas.
The use of water as a solvent for H2S absorption is widely used in the oil and gas industry, and many studies have been conducted to optimize the efficiency and effectiveness of this process.
The selection of water as a solvent to absorb H2S from natural gas is justified by the physical and chemical properties of both H2S and water, which makes water an ideal solvent for absorbing H2S. The justification for selecting water as a solvent can be found in the literature on the subject.
H2S is a highly toxic and corrosive gas that is often present in natural gas. H2S is a weak acid, which means it can react with water to form an acid-base reaction.
This reaction results in the formation of an acidic solution, which can be neutralized by adding a base or an alkali to the solution.
Water is an excellent solvent for absorbing H2S because it can dissolve the gas without causing any chemical reactions.
Water is also an effective solvent because it has a high surface tension, which means it can form a thin film over the surface of the H2S gas. This thin film allows the water to absorb the H2S gas efficiently, even at low concentrations.
Furthermore, water is readily available and relatively cheap, which makes it an economical solvent for the removal of H2S from natural gas.
The use of water as a solvent for H2S absorption is widely used in the oil and gas industry, and many studies have been conducted to optimize the efficiency and effectiveness of this process.
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Monica bowled three games. Her scores were 175, 142, and 133. What was her mean, or average, score?
112.5
142
150
158.5Monica bowled three games. Her scores were 175, 142, and 133. What was her mean, or average, score?
112.5
142
150
158.5
Answer:
[tex]\huge\boxed{\sf Mean = 150}[/tex]
Step-by-step explanation:
Given data:175, 142, 133
Formula:Mean = Sum of data / No. of data
Solution:Put the given data in the above formula.
Mean = 175 + 142 + 133 / 3
Mean = 450 / 3
Mean = 150[tex]\rule[225]{225}{2}[/tex]
Solve the problem. Find the mass of the lamina in the first quadrant bounded by the coordinate axes and the curve y=e-7x if 8(x, y) = xy. 196 392 147 O O
The mass of the lamina for the given curve in the first quadrant is y = [tex]e^{(-7x)[/tex]) is equal to 1/28 units.
To find the mass of the lamina in the first quadrant bounded by the coordinate axes and the curve y = [tex]e^{(-7x)[/tex],
Use the concept of double integrals.
8(x, y) = xy, we can rewrite the expression for the mass as,
m = ∬R ρ(x, y) dA,
where ρ(x, y) is the mass density function and dA represents the differential area element.
Here, ρ(x, y) = xy, and
Find the mass in the region R defined by the first quadrant bounded by the coordinate axes and the curve y = [tex]e^{(-7x)[/tex].
To set up the double integral,
Determine the limits of integration for x and y.
Since the region R is defined in the first quadrant,
0 ≤ x ≤ ∞
0 ≤ y ≤ [tex]e^{(-7x)[/tex]
Let's integrate with respect to y first, from 0 to [tex]e^{(-7x)[/tex], and then integrate with respect to x from 0 to ∞,
m = [tex]\int_{0}^{\infty}[/tex] ∫[0, [tex]e^{(-7x)[/tex]] xy dy dx
Now, let's evaluate the inner integral,
∫[0, [tex]e^{(-7x)[/tex]] xy dy
= [1/2 xy²] evaluated from 0 to [tex]e^{(-7x)[/tex]
= (1/2) x [tex]e^{(-7x)[/tex])² - (1/2) x(0)²
= (1/2) x [tex]e^{(-14x)[/tex]- 0
= (1/2) x [tex]e^{(-14x)[/tex]-
Substituting the double integral,
m = [tex]\int_{0}^{\infty}[/tex] [(1/2) x [tex]e^{(-14x)[/tex]-] dx
Now, evaluate the outer integral,
m = [tex]\int_{0}^{\infty}[/tex] [(1/2) x [tex]e^{(-14x)[/tex]-] dx = -[1/28 [tex]e^{(-14x)[/tex]- (7x + 1)] evaluated from 0 to ∞
= -[(1/28 [tex]e^{(-\infty)[/tex] (7∞ + 1)) - (1/28 [tex]e^{(0)[/tex] (7(0) + 1))]
= -[(1/28)(0) - (1/28)(1)]
= 1/28
Therefore, the mass of the lamina in the first quadrant bounded by the coordinate axes and the curve y = [tex]e^{(-7x)[/tex]) is 1/28 units.
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3 6 9 12 5 8 Question 34 (3 points) Froggy Inc. Had the following inventory information and uses the perpetual meth 8/1 beginning inventory 10 units at $25 each 8/5 purchased 15 units at $27 each 8/30 sold 12 units. Calculate the amount of ending Inventory using FIFO $351 $331 $340.60 $325
The amount of ending inventory using the FIFO (First-In, First-Out) method is $331.
The FIFO method assumes that the items purchased first are sold first. In this case, we have the following inventory transactions:
1. Beginning Inventory (8/1): 10 units at $25 each.
2. Purchased (8/5): 15 units at $27 each.
3. Sold (8/30): 12 units.
To calculate the ending inventory using the FIFO method, we start by using the units from the earliest purchases first. First, we consider the beginning inventory of 10 units. Since no units were sold, these 10 units remain in the inventory.
Next, we consider the purchase of 15 units on 8/5. Since only 12 units were sold, we deduct 12 units from the purchase, leaving us with 3 units from this purchase in the inventory. Therefore, the ending inventory using the FIFO method is the sum of the remaining units from each purchase:
10 units (beginning inventory) + 3 units (remaining from 8/5 purchase) = 13 units. To calculate the dollar amount of the ending inventory, we multiply the remaining units by their respective costs:
13 units * $25 (cost per unit) = $325.
Hence, the amount of ending inventory using the FIFO method is $325.
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The remaining questions all include the following instructions: - Find all solutions to the given equation on the interval 0≤θ<2π (in radians). - Give your answers as exact values in a list, with commas between your answers. - Type "DNE" (Does Not Exist) if there are no solutions. - Do not use any trigonometric functions on a calculator or other technology, as they will not provide you with exact answers. Decimal approximations and answers given in degrees will be marked wrong. Find all solutions to the following equation on the interval 0≤θ<2π (in radians). 3tanθ=−3 θ= Give your answers as exact values in a list, with commas between your answers. Type "DNE" (Does Not Exist) if there are no solutions. Do not use any trigonometric functions on a calculator or other technology, as they will not provide you with exact answers. Decimal approximations and answers given in degrees will be marked wrong.
The equation to be solved is 3tanθ = -3. Here's the method for solving the equation: Step 1: Isolate the tangent function on the left side of the equation. 3: tan θ = -1.Step 2: Recall that the tangent of an angle is equal to the ratio .
Therefore, tan θ = sin θ/cos θ. So, we may rewrite the equation as sin θ/cos θ = -1.Step 3: Recall that in the second quadrant of the unit circle, sine is positive and cosine is negative. As a result, we may replace the sine and cosine values with positive and negative values, respectively. This implies that sin θ = 1 and cos θ = -1.Step 4: Using the Pythagorean
We'll use the fact that [tex]cos θ = -1, sin θ = 1, and that sin θ/cos θ = -1[/tex] to accomplish this. Let's look at the value of θ in both the second and fourth quadrants. Second Quadrant: In the second quadrant, both sin θ and cos θ are positive. As a result, the value of sin θ/cos θ cannot be negative.
Thus, there are no solutions in the second quadrant. Fourth Quadrant: In the fourth quadrant, both sin θ and cos θ are negative. [tex]θ = 3π/4.Therefore, the solution to the equation 3tanθ = -3 on the interval 0≤θ<2π is θ = 3π/4[/tex].
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1. The concentration of pollutant, \( \mathrm{c} \) (in \( \mathrm{kg} \) per cubic meter), in the pond at \( \mathrm{t} \) minutes is modelled by \[ c(t)=\frac{27 t}{10000+3 t} \] ( 5 marks) a. To the nearest hundredths, what is the concentration at 1 day? b. To the nearest hundredth of an hour, when does the concentration reach a level of 2 kg/m
3
? c. What happens to the concentration as the time increases?
a. the concentration at 1 day is approximately 0.93 kg/m.
b. the concentration reaches a level of 2 kg/m at approximately 15.87 hours.
c. the concentration approaches a maximum value of 9 kg/m as t approaches infinity.
a. To find the concentration at 1 day, we need to convert 1 day to minutes.
There are 24 hours in a day, and 60 minutes in an hour. Therefore, 1 day = 24 × 60 = 1440 minutes.
Now we can substitute t = 1440 in the given equation and find the concentration at 1 day.
[tex]\[ c(1440)=\frac{27\times1440}{10000+3\times1440}=0.932 \[/tex]
b. We need to find the time at which the concentration reaches 2 kg/m. We can set the given equation equal to 2 and solve for t.
[tex]2=\frac{27 t}{10000+3 t}[/tex]
20000+6t=27t
21t=20000
t = 952.38 minutes
c. As time increases, the denominator of the given equation (10000+3t) also increases. we can conclude that the concentration decreases. However, the concentration approaches a maximum value of 9 kg/m as t approaches infinity.
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ami runs a car repair shop. 75% of the cars that come into her shop require 5 quarts of oil each oil change. 25% of the cars that come into her shop require 6 quarts of oil each oil change. if ami's shop used 2,520 quarts of oil last month for oil changes, how many cars got an oil change at ami's shop last month?
Let's assume the number of cars that require 5 quarts of oil is represented by x, and the number of cars that require 6 quarts of oil is represented by y. We know that 75% of the cars require 5 quarts and 25% require 6 quarts. The calculations show that x = 600 and y = 540. Since x represents the number of cars that require 5 quarts of oil and y represents the number of cars that require 6 quarts of oil,
From this information, we can set up the following equations:
0.75x + 0.25y = total number of cars
5x + 6y = 2520 (the total amount of oil used, given in quarts)To solve these equations, we can multiply the first equation by 5 to eliminate the decimals: 3.75x + 1.25y = total number of cars Now we have a system of two equations: 3.75x + 1.25y = total number of cars 5x + 6y = 2520 By solving this system of equations, we can find the values of x and y. the total number of cars that got an oil change at Ami's shop last month is x + y = 600 + 540 = 1140. Therefore, 1140 cars received an oil change at Ami's shop last month.
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Assignment Scoring Your Last Submission Is Used For Your Score. 1. [−/1.66 Points ] SCALCET9 11.1.008. List The First Five Terms O
The first five terms of the sequence are (a) 2, 3, 6, 18, 108
Writing out the first five terms of the sequenceFrom the question, we have the following parameters that can be used in our computation:
a(1) = 2
a(2) = 3
a(n) = a(n - 2) * a(n - 1)
To calculate the first five terms of the sequence, we set n = 1 to 5
Using the above as a guide, we have the following:
a(1) = 2
a(2) = 3
a(3) = 2 * 3 = 6
a(4) = 3 * 6 = 18
a(5) = 18 * 6 = 108
Hence, the first five terms of the sequence are (a) 2, 3, 6, 18, 108
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Question
List the first five terms of this sequence
a(1) = 2
a(2) = 3
a(n) = a(n - 2) * a(n - 1)
(d) For the following non-linear initial value problem dy = y − x² +1, y (0) = 0.5 Find y(0.4) numerically with incremental step size h = 0.2 and accuracy to 5 decimals by dx (i) Euler Method (ii)
The required value of y(0.4) is approximately 0.92.
(d) For the following non-linear initial value problem dy = y − x² +1, y (0)
= 0.5 Find y(0.4) numerically with incremental step size h = 0.2 and accuracy to 5 decimals by dx (i) Euler Method
(d) For the given initial value problem, the given values are:
y(0) = 0.5h
= 0.2x = 0.4dx
= h = 0.2f(x, y)
= y - x² + 1
The Euler Method The differential equation of the first order can be approximated with the Euler method as the step size h becomes small.
The Euler method provides a simple formula for constructing an approximate solution to the initial value problem:
y_(i+1) = y_i + h f(x_i, y_i), i
= 0, 1, 2, ..., n - 1,
Where the step size is h = (b - a)/n, x_i
= a + i h, y_i denotes the approximation of y(x_i), and y_0 = y
(a) is the initial value that has been given.
Therefore, for the given problem, let's calculate the value of y(0.4) numerically with incremental step size h = 0.2 and accuracy to 5 decimals by dx using the Euler method.
(i) Euler Method To obtain the solution, we use Euler's method with the following formula:y_i+1 = y_i + h f(x_i, y_i)
We will make use of the given values in the problem.
Let us first define the step size h and number of iterations as follows: h = 0.2n
= (0.4 - 0) / h = 2
Step 1: We need to calculate y1 first, so we have to calculate f(x0, y0).
x0 = 0,
y0 = 0.5f(x0, y0)
= y0 - x0^2 + 1
= 0.5 - 0 + 1 = 1.5y1
= y0 + hf(x0, y0)
= 0.5 + 0.2(1.5)=0.8
Step 2: Now, we will use the above y1 value to calculate y2y2 = y1 + hf(x1, y1)
=0.8 + 0.2(0.6)
=0.92y(0.4) ≈ y2
= 0.92.
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It is accepted that the scores on the Calibrated-Sprint Fitness Test were Normally distributed with an average completion time of 52 seconds and a standard deviation of 8 seconds. A sports therapist decides to test whether barefoot runners have the same average completion time as the general population. She designs a randomized experiment and obtains the following summary statistics: n = 32, x = 56 seconds. Is there evidence at the a = 0.01 level to suggest that barefoot runners have a different average completion time from the general population? Your answer should contain: a clear statement of null and alternative hypotheses calculation of a test statistic (including the formula used) a statement and interpretation of the p-value in terms of statistical significance (you do not need to justify how you found the p-value) a conclusion that interprets the p-value in the context of this research problem.
based on the given data, there is no statistically significant evidence to suggest that barefoot runners have a different average completion time from the general population.
To test whether barefoot runners have a different average completion time from the general population, we can conduct a hypothesis test using the given information.
Null Hypothesis (H₀): The average completion time for barefoot runners is the same as the general population (μ = 52 seconds).
Alternative Hypothesis (H₁): The average completion time for barefoot runners is different from the general population (μ ≠ 52 seconds).
We will use a two-tailed t-test to compare the sample mean (x = 56 seconds) with the population mean (μ = 52 seconds). The formula for the t-test statistic is:
t = (x - μ) / (s / √n),
where x is the sample mean, μ is the population mean, s is the sample standard deviation, and n is the sample size.
Given:
x = 56 seconds
μ = 52 seconds
s = 8 seconds
n = 32
Now, let's calculate the t-test statistic:
t = (56 - 52) / (8 / √32)
≈ 4 / (8 / √32)
≈ 4 / (8 / 4)
≈ 4 / 2
= 2.
Next, we need to determine the p-value associated with the calculated t-value. Since the sample size is large (n = 32), we can use the standard normal distribution to find the p-value. The t-distribution becomes nearly identical to the standard normal distribution as the sample size increases.
From the t-value of 2, we can find the corresponding p-value. The p-value represents the probability of obtaining a t-value as extreme as or more extreme than the observed value, assuming the null hypothesis is true.
Using statistical software or a table, we find that the p-value for t = 2 in a two-tailed test is approximately 0.052. This value represents the probability of observing a sample mean as extreme as 56 seconds or more extreme, assuming the population mean is 52 seconds.
Since the p-value (0.052) is greater than the significance level α (0.01), we fail to reject the null hypothesis. This means that there is not enough evidence to suggest that barefoot runners have a different average completion time from the general population at the 0.01 significance level.
In conclusion, based on the given data, there is no statistically significant evidence to suggest that barefoot runners have a different average completion time from the general population.
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Find dt
df
using the chain rule, given that: f(x,y)=ln(x+y),x=e t
,y=e t
[tex]$\frac{df}{dt}=\frac{1}{e^t+e^t}(e^t+e^t)=\frac{2e^t}{2e^t}=1[/tex]
Given that [tex]$f(x,y)=ln(x+y), x=e^{t},y=e^{t}$,[/tex] we are supposed to find dt \ df.
To find the derivative of the composite function [tex]$f(x(t),y(t))$[/tex]
we use the chain rule which states that if $f(u)$ is a differentiable function of u and $u=g(t)$,
then the composite function is differentiable and its derivative is given by
[tex]$$(f\circ g)'(t)=\frac{df}{du}(g(t))\frac{du}{dt}$$[/tex]
Therefore, [tex]$\frac{df}{dt}=\frac{df}{dx}\frac{dx}{dt}+\frac{df}{dy}\frac{dy}{dt}$where[/tex]
[tex]$f(x,y)=ln(x+y)$ and$x=e^t$, $y=e^t$$\frac{df}{dx}=\frac{1}{x+y}$and$\frac{df}{dy}=\frac{1}{x+y}$$\frac{dx}{dt}=e^t$ and $\frac{dy}{dt}=e^t$[/tex]
Therefore, [tex]$\frac{df}{dt}=\frac{1}{e^t+e^t}(e^t+e^t)=\frac{2e^t}{2e^t}=1$[/tex]
Therefore, [tex]$\frac{df}{dt}=1$[/tex]
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(1 point) Consider the following initial value problem: x ′′
−4x ′
−21x=sin(8t),x(0)=−2,x ′
(0)=7. Using X for the Laplace transform of x(t), i.e., X=L{x(t)}, find the equation you get by taking the Laplace transform of the differential equation and solve for X(s)= help (formulas)
The partial fraction decomposition is:
X(s) = 4/5 * (1/(s - 7)) - 4/5 * (1/(s + 3))
We can now take the inverse Laplace transform of X(s) to find the solution x(t): x(t) = 4/5 * (e^(7t) - e^(-3t))
This is the solution to the given initial value problem.
To solve the given initial value problem using Laplace transforms, we'll start by taking the Laplace transform of the given differential equation. Let's denote the Laplace transform of x(t) as X(s). The Laplace transform of the derivatives can be expressed as follows:
L{x'(t)} = sX(s) - x(0)
L{x''(t)} = s²X(s) - sx(0) - x'(0)
Now, let's apply the Laplace transform to the given differential equation:
s²X(s) - sx(0) - x'(0) - 4(sX(s) - x(0)) - 21X(s) = L{sin(8t)}
Substituting the given initial conditions x(0) = -2 and x'(0) = 7, and using the Laplace transform of sin(8t), we have:
s²X(s) + 2s + 7 - 4sX(s) + 8X(s) - 8 - 21X(s) = 8/(s² + 64)
Rearranging terms, we get:
(s² - 4s - 21)X(s) + (8s - 1) = 8/(s² + 64)
Now, solving for X(s), we have:
X(s) = [8/(s² + 64) - (8s - 1)] / (s² - 4s - 21)
To proceed further, we can factor the denominator of the right side:
X(s) = [8/(s² + 64) - (8s - 1)] / [(s - 7)(s + 3)]
We can now use partial fraction decomposition to express X(s) in terms of simpler fractions. Let's assume the following partial fraction decomposition:
X(s) = A/(s - 7) + B/(s + 3)
Multiplying both sides by (s - 7)(s + 3), we have:
8 = A(s + 3) + B(s - 7)
Expanding and equating coefficients, we get:
8 = (A + B)s + (3A - 7B)
Equating the coefficients of like powers of s, we have the following system of equations:
A + B = 0 (coefficient of s^0)
3A - 7B = 8 (coefficient of s^1)
Solving this system of equations, we find A = 8/10 = 4/5 and B = -8/10 = -4/5.
Therefore, the partial fraction decomposition is:
X(s) = 4/5 * (1/(s - 7)) - 4/5 * (1/(s + 3))
We can now take the inverse Laplace transform of X(s) to find the solution x(t):
x(t) = 4/5 * (e^(7t) - e^(-3t))
This is the solution to the given initial value problem.
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Apply Euler's method twice to approximate the solution to the initial value problem on the interval 0,2 first with step size h = 0.25, then with step size h = 0.1. Compare the 1 three-decimal-place 1 with the value of y 2 of the actual solution. values of the two approximations at x = y' = - 3x²y, y(0) = 10, y(x) = 10 e −x³
The approximations of the solution at x = 1 using Euler's method with step sizes h = 0.25 and h = 0.1 are 9.625 and 9.997, respectively. Neither approximation matches the actual solution y₂ ≈ 5.987, but the approximation with h = 0.1 is closer to the actual value.
To approximate the solution to the initial value problem using Euler's method, we first need to express the problem in the form of a first-order differential equation. The given initial value problem is:
dy/dx = -3x²y, y(0) = 10.
We can rewrite this equation as y' = -3x²y. The actual solution to this problem is given by y(x) = 10e^(-x³).
Now, let's apply Euler's method twice with two different step sizes to approximate the solution on the interval [0, 2].
1. Using step size h = 0.25:
We start at x = 0 with y = 10 (initial condition). The formula for Euler's method is:
yₙ₊₁ = yₙ + h * f(xₙ, yₙ),
where yₙ represents the approximation of y at the nth step, xₙ = nh represents the value of x at the nth step, and f(xₙ, yₙ) represents the value of the derivative at the nth step.
Applying Euler's method with h = 0.25, we get:
x₀ = 0, y₀ = 10.
x₁ = 0 + 0.25 = 0.25,
y₁ = y₀ + 0.25 * f(x₀, y₀) = 10 + 0.25 * (-3 * 0² * 10) = 10.
Now, for the second step:
x₁ = 0.25, y₁ = 10.
x₂ = 0.25 + 0.25 = 0.5,
y₂ = y₁ + 0.25 * f(x₁, y₁) = 10 + 0.25 * (-3 * 0.25² * 10) = 10 - 0.375 = 9.625.
2. Using step size h = 0.1:
Following the same process, we can calculate the approximations:
x₀ = 0, y₀ = 10.
x₁ = 0 + 0.1 = 0.1,
y₁ = y₀ + 0.1 * f(x₀, y₀) = 10 + 0.1 * (-3 * 0² * 10) = 10.
For the second step:
x₁ = 0.1, y₁ = 10.
x₂ = 0.1 + 0.1 = 0.2,
y₂ = y₁ + 0.1 * f(x₁, y₁) = 10 + 0.1 * (-3 * 0.1² * 10) = 10 - 0.003 = 9.997.
Comparing the approximations at x = 1 with the actual solution y₂ = 10e^(-1³) ≈ 5.987, we have:
For h = 0.25: Approximation = 9.625
For h = 0.1: Approximation = 9.997
As we can see, both approximations differ from the actual solution, but the approximation with a smaller step size (h = 0.1) is closer to the actual value.
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Study the equations:
f(x) = 6x + 7
g(x) = 4x - 2
What is h(x) = f(x)g(x)?
• h(x) = 24x2-14
O h(x) = 24x2 + 40x + 14
O h(x) = 24×2 + 16x - 14
O h(x) = 24x2 + 12x - 14
The correct equation is option b: h(x) = [tex]24x^2[/tex] + 40x + 14
To find h(x), we need to multiply f(x) and g(x) together. Let's substitute the given equations for f(x) and g(x):
f(x) = 6x + 7
g(x) = 4x - 2
Now, we can multiply the two equations:
h(x) = f(x) * g(x)
= (6x + 7) * (4x - 2)
To simplify the multiplication, we can use the distributive property. Multiply each term of the first equation by each term of the second equation:
h(x) = (6x * 4x) + (6x * -2) + (7 * 4x) + (7 * -2)
= [tex]24x^2[/tex] - 12x + 28x - 14
Combine like terms:
h(x) = [tex]24x^2[/tex] + 16x - 14
Therefore, the correct expression for h(x) is:
O h(x) = [tex]24x^2[/tex] + 16x - 14
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For what values of k does the function = cos kt satisfy the differential equation 81y" = -25y?
For what values of k does the function[tex]y = cos kt[/tex] satisfy the differential equation [tex]81y" = -25y[/tex]?Solution:Given that the differential equation is[tex]81y" = -25y[/tex]We know that [tex]y = cos ktSo, y' = -k sin kt [Differentiating w.r.t t] and y" = -k^2 cos kt[/tex] [Differentiating y' w.r.t t]
Substituting these values in the differential equation, we get[tex]81(-k^2 cos kt) = -25 cos kt81k^2 = 25
Therefore, k = ± 5/9If k = 5/9[/tex], then the solution of differential equation is
[tex]y = A cos(5t/9) + B sin(5t/9)If k = -5/9,[/tex]
then the solution of differential equation is [tex]y = A cos(5t/9) + B sin(5t/9)[/tex]
The function[tex]y = cos kt[/tex] satisfies the differential equation[tex]81y" = -25y[/tex] for the values of [tex]k as ± 5/9.[/tex]
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Solve the system using the inverse that is given for the coefficient matrix. 26. x+2y+3z= 10 x+y+z=6 -x+y+ 2z=-4 2 31 The inverse of 1 1 1 is 2 a) {(-16, 32, 6)} b) {(10, 24, 8)} c) {(8,-8,6)}* d) {(1
The solution to the system of equations is x = 8, y = -8, and z = 6.
To solve the system using the given inverse of the coefficient matrix, we can multiply the inverse by the column matrix of the constant terms.
The inverse of the coefficient matrix [1 2 3; 1 1 1; -1 1 2] is given as [2 -1 -1; -1 2 -1; -1 -1 2].
Let's denote the column matrix of constant terms as B: B = [10; 6; -4].
Now, we can calculate the solution by multiplying the inverse matrix with the matrix B:
[2 -1 -1; -1 2 -1; -1 -1 2] * [10; 6; -4] = [8; -8; 6].
The correct answer is c) {(8, -8, 6)}.
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Kim finds the total volume of choco drink in a pack to be 141. 3 cubic inches. If each cyliner shaped can has a height of 4 inches and a diameter of 3 inches , how many choco drink are in a pack ? (use 3. 14 for. )
There are approximately 5 chocolate drinks in a pack.
To determine the number of chocolate drinks in a pack, we need to find the volume of each cylindrical can and then divide the total volume of the pack by the volume of each can.
The volume of a cylinder can be calculated using the formula V = πr²h, where V is the volume, π is approximately 3.14, r is the radius of the base, and h is the height of the cylinder.
Given that the height of the can is 4 inches and the diameter is 3 inches, we can calculate the radius as half of the diameter, which is 3/2 = 1.5 inches.
Plugging these values into the formula, we have:
V = 3.14 * (1.5)² * 4
V = 3.14 * 2.25 * 4
V = 28.26 cubic inches
Now we can calculate the number of chocolate drinks in a pack by dividing the total volume of the pack (141.3 cubic inches) by the volume of each can (28.26 cubic inches):
Number of chocolate drinks = 141.3 / 28.26
Number of chocolate drinks ≈ 5
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State the carbon dating model that scientists use to estimate the age of organic material, where R represents the ratio of carbon-14 to carbon-12 of organic material t years after death. R = Suppose that the ratio of carbon-14 to carbon-12 in a piece of wood discovered in a cave is R = 1 817 Estimate the age (in years) of the piece of wood. (Round your answer to the nearest whole number.) years old Write an equation in terms of t that can be used to determine the age of the piece of wood.
Carbon dating is a method used by scientists to determine the age of organic materials based on the amounts of carbon isotopes present in the material. Carbon dating is based on the ratio of carbon-14 to carbon-12 of organic material t years after death.
Carbon dating model that scientists use to estimate the age of organic material:The carbon dating model that scientists use to estimate the age of organic material is based on the radioactive decay of carbon-14 in organic materials. Carbon-14 is a radioactive isotope that decays over time, and the rate of decay is known. The amount of carbon-14 remaining in an organic material can be measured, and the age of the material can be estimated from the amount of carbon-14 present in the sample.
The formula for carbon dating is given as:
R = (A / A0) = e^-kt
where R = ratio of carbon-14 to carbon-12A = amount of carbon-14 in the sampleA0 = amount of carbon-14 in the original sample k = decay constant t = time since death
Using the given values:
R = 1,817
We know that the half-life of carbon-14 is 5,700 years,
which means that the decay constant is k = ln(1/2) / 5,700 = -0.000121.
This means that the equation for carbon dating can be written as:
1,817 = (A / A0) = e^-0.000121t
Solving for t, we get:
t = ln(R) / k = ln(1,817) / -0.000121 = 15,244 years old (rounded to the nearest whole number).
Therefore, the age of the piece of wood is approximately 15,244 years old
.An equation in terms of t that can be used to determine the age of the piece of wood is given as:
t = ln(R) / k, where R represents the ratio of carbon-14 to carbon-12 of organic material t years after death.
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Given ∫ 3
5
x 2
dx= 3
98
,∫ 3
5
xdx=8,∫ 3
5
1dx=2 Compute ∫ 3
5
(−9x 2
+6x−4)dx.
The value of the integral [tex]∫ 3 to 5 (-9x^2 + 6x - 4)dx is 4591/98.[/tex]
The given integrals are: ∫ 3 to 5 x^2 dx
= 3/98,
∫ 3 to 5 x dx = 8, ∫ 3 to 5 1 dx = 2
The integrand is given by [tex](-9x^2 + 6x - 4)[/tex]dx.
The value of the integral is to be calculated over the interval [3, 5].
To calculate the value of the given integral, first break it into three integrals over the same limits:
[tex][∫ 3 to 5 -9x^2 dx] + [∫ 3 to 5 6x dx] - [∫ 3 to 5 4 dx][/tex]
The value of the first integral is calculated using the given value of the integral ∫ 3 to 5 x^2 dx:
∫ 3 to 5 -9x^2 dx = -9 × ∫ 3 to 5 x^2 dx
= -9 × 3/98 = -27/98
The value of the second integral is calculated using the given value of the integral
∫ 3 to 5 x dx:
∫ 3 to 5 6x dx = 6 × ∫ 3 to 5 x dx = 6 × 8 = 48
The value of the third integral is calculated using the formula ∫ a to b dx = b - a, where a = 3 and b = 5:
∫ 3 to 5 4 dx = 4 × ∫ 3 to 5 1 dx = 4 × 2 = 8
Now, substituting the values of the integrals back in the expression
[∫ 3 to 5 -9x^2 dx] + [∫ 3 to 5 6x dx] - [∫ 3 to 5 4 dx],
we get:[∫ 3 to 5 -9x^2 dx] + [∫ 3 to 5 6x dx] - [∫ 3 to 5 4 dx]
= -27/98 + 48 - 8= 4591/98
The value of the integral ∫ 3 to 5 (-9x^2 + 6x - 4)dx is 4591/98.
The value of the integral ∫ 3 to 5 (-9x^2 + 6x - 4)dx is 4591/98.
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Two legs of a triangle are measured to be 30 cm and 20 cm with a measuring error of 1 mm. The angle between these two legs measures 60 ∘
with a measuring error of 1 ∘
. Compute the area of this triangle and the corresponding measuring error.
The area of the triangle is 75√3 cm² and the corresponding measuring error is 0.750√3 + 2.813.
Given data: Two legs of a triangle are measured to be 30 cm and 20 cm with a measuring error of 1 mm.
The angle between these two legs measures 60 ∘with a measuring error of 1 ∘
To compute the area of this triangle and the corresponding measuring error.
Step 1:The area of a triangle can be found using the formula given below,
A = 1/2 bc sin(A)
where a, b, and c are the sides of the triangle, and A is the angle opposite to the side a. In this case, side a is given by the Pythagorean theorem.
a² = b² + c² - 2bc cos(A)
Substituting the given values in the above equations, we get, c = 20 cm, b = 30 cm, and A = 60°
Step 2:Finding the area and the corresponding errorArea of the triangle,
A = 1/2 x 30 x 20 x sin(60°)
A = 300/2 x √3 / 2
A = 75√3 cm²
Relative errors:
error in b = 1 mm, error in c = 1 mm
error in A = 1°
As we know, ΔA/A = Δb/b + Δc/c + ΔA/A
Thus, ΔA = A (Δb/b + Δc/c + ΔA/A)
Substituting the given values,
ΔA = 75√3 x (1/30 + 1/20 + 1/60) + (75√3 x √3/200)
ΔA = 75√3 / 24 + 225/80
ΔA = 0.750√3 + 2.813
The area of the triangle is 75√3 cm² and the corresponding measuring error is 0.750√3 + 2.813.
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