The equation 5 factorial equals

The question asks us to compute the expected value (e[x]) of a random variable with a given density function. To do this, we integrate the product of the variable and the density function over its possible values. In this case, the density function is given as 5x^2, if x > 5. However, since the integral diverges at infinity, we can conclude that the expected value of x does not exist in this case.

To compute the expected value (e[x]) of a random variable with a density function, we integrate the product of the variable and the density function over its possible values. In this case, we have:

e[x] = ∫x * f(x) dx, for x > 5

where f(x) is the density function given as 5x^2, if x > 5.

Substituting f(x), we get:

e[x] = ∫x * 5x^2 dx, for x > 5

e[x] = 5 ∫x^3 dx, for x > 5

Integrating, we get:

e[x] = 5 * (x^4/4) + C, for x > 5

Since we are interested in values of x greater than 5, we can evaluate the definite integral as follows:

e[x] = 5 * [(x^4/4) - (5^4/4)], from x = 5 to infinity

e[x] = 5 * [(∞^4/4) - (5^4/4)]

However, since the integral diverges at infinity, we cannot evaluate it directly. This means that the expected value of x does not exist in this case.

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The value of the function when x is -2 is -12. Therefore, the correct option is b.

A function assigns the value of each element of one set to the other specific element of another set.

Given the function f(x)=3.25x+c. Also, f(2)=1. Substitute the values in the given function to find the value of c. Therefore,

f(x)=3.25x+c

f(x=2) = 3.25(2)+c

1 = 3.25(2)+c

1 = 6.5 + c

1 - 6.5 = c

c = -5.5

Now, if the values f(-2) can be written as,

f(x)=3.25x+c

Substitute the values,

f(x=-2) = 3.25(-2) + (-5.5)

f(x=-2) = -6.5 - 5.5

f(x=-2) = -12

Hence, the correct option is b.

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The complete question can be:

A function is defined as f(x)=3.25x+c. If f(2)=1, what is the value of f(-2)? (a)-32 (b) -12 (c) 12 (d) 32 (e) 52

Change in potential energy in moving from x1 = -0.100 m to x2 = -0.300 m is -1.52 x 10^-4 J.

We need to use the formula:

ΔPE = -W

where ΔPE is the change in potential energy and W is the work done by the force. The work done by the force is given by:

W = ∫ f(x) dx

where ∫ represents integration and dx is the infinitesimal displacement. Substituting the given force, we get:

W = ∫ (-4.00 n/m) x (2.00 n/m³) x³ dx

Integrating this expression with limits from x1 to x2 (the initial and final positions), we get:

W = (-1/2) (4.00 n/m) (2.00 n/m³) [(x2)⁴ - (x1)⁴]

Now, substituting the given positions, we get:

W = (-1/2) (4.00 n/m) (2.00 n/m³) [(-0.100 m)⁴ - (-0.300 m)⁴]

W = 1.52 x 10⁻⁴ J

Finally, substituting this value of W in the formula for ΔPE, we get:

ΔPE = -W

ΔPE = -1.52 x 10⁻⁴ J

Therefore, the change in potential energy in moving from x1 = -0.100 m to x2 = -0.300 m is -1.52 x 10⁻⁴ J.

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Answer:

B

Step-by-step explanation:

240 miles divided by 4 hours is 60mph

Answer:

B

Step-by-step explanation:

The formula for calculating the average speed=

distance covered/time taken

In the question the:

distance covered=240miles

time taken =4hours

240/4

60/1

60mph

The solution of the question is: N ≈ 10^43  for SN= N∑k=1 1/k to exceed 4.

To solve for N, we need to use the formula for the harmonic series:

SN = N∑k=1 1/k

We want to find the value of N that makes SN exceed 4. So we can set up the inequality:

SN > 4

N∑k=1 1/k > 4

Next, we can use the fact that the harmonic series diverges (i.e. it goes to infinity) to help us solve for N. This means that as we add more terms to the sum, the value of SN will continue to increase without bounds. So we can start by finding the value of N that makes the first term in the sum greater than 4:

N∑k=1 1/k > N(1/1) > 4

N > 4

So we know that N must be greater than 4. But we also know that we need a very large value of N in order for the sum to exceed 4. In fact, we need N to be at least 272,400,600 for SN to exceed 20. And we need N to be approximately 1.5×10^43 for SN to exceed 100. This tells us that N needs to be a very large number, much larger than 4.

So we can estimate that N is somewhere around 10^43 (i.e. a one followed by 43 zeros). We don't need an exact value of N, just a rough estimate. This is because the value of N we're looking for is so large that any small error in our estimate won't make a significant difference.

Therefore, our answer is N ≈ 10^43.

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The sum of the series ∑n=1^∞ (9an+1 - 4bn+1) is -29.

Using the given information, we can write

∑n=1^∞ an = 1 - a1

∑n=1^∞ bn = -1 - b1

Substituting the given values of a1 and b1, we get

∑n=1^∞ an = 1 - 2 = -1

∑n=1^∞ bn = -1 - (-3) = 2

Now, we can use these expressions to evaluate the given series

∑n=1^∞ (9an+1 - 4bn+1)

= ∑n=2^∞ (9an - 4bn)

= 9∑n=2^∞ an - 4∑n=2^∞ bn

= 9(∑n=1^∞ an - a1) - 4(∑n=1^∞ bn - b1)

= 9(-1 - 2) - 4(2 + 3)

= -9 - 20

= -29

Therefore, the sum of the series is -29.

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--The given question is incomplete, the complete question is given

" suppose that [infinity] ∑ n = 1 an = 1, that [infinity] ∑ n = 1 bn = −1, that a1 = 2, and b1 = −3. find the sum of the indicated series. [infinity]∑ n = 1 (9an 1 − 4bn 1)"--

Step-by-step explanation:

See image

To find the coefficient of x^17 in (x^2 + x^3 + x^4 + x^5 + x^6 + x^7)^3, we can use the multinomial theorem.

First, we need to determine all possible ways to choose exponents that add up to 17. One possible way is to choose x^5 from the first term, x^6 from the second term, and x^6 from the third term. This gives us (x^5)*(x^6)*(x^6) = x^17.

Next, we need to determine how many ways there are to choose these exponents. We can use the multinomial coefficient formula:

(n choose k1,k2,...,km) = n! / (k1! * k2! * ... * km!)

where n is the total number of objects (in this case, 3), and k1, k2, and k3 are the number of objects chosen from each group (in this case, 1 from the first group, 1 from the second group, and 1 from the third group).

Plugging in the values, we get:

(3 choose 1,1,1) = 3! / (1! * 1! * 1!) = 3

Therefore, the coefficient of x^17 in (x^2 + x^3 + x^4 + x^5 + x^6 + x^7)^3 is 3.
To find the coefficient of x^17 in the expression (x^2 + x^3 + x^4 + x^5 + x^6 + x^7)^3, we need to determine which terms, when multiplied together, will result in x^17. Since the expression is cubed, we are looking for combinations of three terms from the sum inside the parentheses.

There are three possible combinations that yield x^17:

1. x^2 * x^7 * x^8 (coefficient: 1)
2. x^3 * x^5 * x^9 (coefficient: 1)
3. x^4 * x^6 * x^7 (coefficient: 1)

The coefficients of these terms are all 1. Therefore, the coefficient of x^17 in the given expression is the sum of the coefficients: 1 + 1 + 1 = 3.

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(b) 2.04, The value of a that corresponds to P(Z a) = 0.9793 can be determined by using the standard normal table or calculator once more. Around 2.04 is this figure.

A probability distribution that is continuous and symmetrical around the mean is called the normal distribution. Other names for it include the bell curve or the Gaussian distribution.

Like the average height of a population or the weight of things, many natural phenomena have a normal distribution. It is possible to anticipate how likely it is that a random variable will fall within a specific range of values thanks to the normal distribution, which is crucial in statistics.

Known to have a mean of 0 and a standard deviation of 1, the normal distribution has these values. As a result, we can state: P(0 Z a) = P(Z a) - P(Z 0)

P(Z 0) = 0.5 can be discovered using a basic normal table or calculator. In light of this, 0.4793 = P(Z a) - 0.5

The result is 0.9793 = P(Z a) after adding 0.5 to both sides.

The value of a that corresponds to P(Z a) = 0.9793 can be determined by using the standard normal table or calculator once more. Around 2.04 is this figure.

Thus, (b) 2.04 is the correct response.

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The function f(x) is approximated near x=0 by the second degree Taylor polynomial P2(x)=3x−5+6x^2, the values of f(0) = -5 f'(0) = 3 and f''(0) = 12

The values of f(0), f'(0), and f''(0) are as follows:

f(0) = P2(0) = -5

f'(0) = P2'(0) = 3

f''(0) = P2''(0) = 12

To understand why these values hold, we need to recall the definition of the second degree Taylor polynomial. The second degree Taylor polynomial P2(x) of a function f(x) is given by:

[tex]P2(x) = f(0) + f'(0)x + (1/2)f''(0)x^2[/tex]

where f(0), f'(0), and f''(0) are the values of the function and its first two derivatives evaluated at x = 0.

In this case, we are given that the second degree Taylor polynomial of f(x) near x = 0 is[tex]P2(x) = 3x - 5 + 6x^2.[/tex] Comparing this with the general form of P2(x), we can see that:

f(0) = -5

f'(0) = 3

f''(0) = 12

Therefore, the value of the function at x = 0 is -5, the value of its first derivative at x = 0 is 3, and the value of its second derivative at x = 0 is 12.

To further understand the meaning of these values, we can consider the behavior of the function near x = 0. The fact that f(0) = -5 means that the function takes a value of -5 at the point x = 0. The fact that f'(0) = 3 means that the function is increasing at x = 0, while the fact that f''(0) = 12 means that the rate of increase is accelerating. In other words, the function has a local minimum at x = 0.

Overall, the values of f(0), f'(0), and f''(0) give us information about the behavior of the function f(x) near x = 0, and the second degree Taylor polynomial P2(x) provides an approximation of this behavior.

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The parametrization of the circle with the given conditions is:
x(t) = -1 + 4 * cos(t - π/2)
y(t) = 1 + 4 * sin(t - π/2)

To find a parametrization of the circle of radius 4 in the xy-plane, centered at (-1, 1), oriented counterclockwise, and with the point (3, 1) corresponding to t = 0, we can use the following parametric equations,
x(t) = -1 + 4 * cos(t)
y(t) = 1 + 4 * sin(t)
However, we need to adjust the starting point of the parameter t to correspond to the point (3, 1). To do this, we need to find the angle that corresponds to this point on the circle. Since it lies on the positive x-axis, the angle is 0 degrees or 0 radians. We will introduce a phase shift in the trigonometric functions to account for this:
x(t) = -1 + 4 * cos(t - π/2)
y(t) = 1 + 4 * sin(t - π/2)

So, the parametrization of the circle with the given conditions is,
x(t) = -1 + 4 * cos(t - π/2)
y(t) = 1 + 4 * sin(t - π/2)

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The parametrization of the circle with the given conditions is:
x(t) = -1 + 4 * cos(t - π/2)
y(t) = 1 + 4 * sin(t - π/2)

To find a parametrization of the circle of radius 4 in the xy-plane, centered at (-1, 1), oriented counterclockwise, and with the point (3, 1) corresponding to t = 0, we can use the following parametric equations,
x(t) = -1 + 4 * cos(t)
y(t) = 1 + 4 * sin(t)
However, we need to adjust the starting point of the parameter t to correspond to the point (3, 1). To do this, we need to find the angle that corresponds to this point on the circle. Since it lies on the positive x-axis, the angle is 0 degrees or 0 radians. We will introduce a phase shift in the trigonometric functions to account for this:
x(t) = -1 + 4 * cos(t - π/2)
y(t) = 1 + 4 * sin(t - π/2)

So, the parametrization of the circle with the given conditions is,
x(t) = -1 + 4 * cos(t - π/2)
y(t) = 1 + 4 * sin(t - π/2)

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The statement "a 95% confidence interval for the mean response is the same width, regardless of x" is FALSE.

The width of a 95% confidence interval for the mean response can vary depending on the variability of the data and the sample size.

In general, larger sample sizes result in narrower intervals, while smaller sample sizes result in wider intervals.

Variability refers to the degree to which data or values in a set vary or differ from each other. In other words, it measures the extent to which individual data points in a dataset deviate from the central tendency or the mean.

Additionally, greater variability in the data will lead to wider intervals.

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Answer:

Step-by-step explanation:

You need to convert all into decimals or all into fractions to compare

4 1/6= 4.166666

4.73

41/10= 4.1

4.168

Order:

   41/10      4 1/6      4.168    4.73

Answer:

here's the list of numbers in order from least to greatest:

4 1/6, 4.160, 41/10, 4.73.

Answer:

The sequence is defined by the formula an = 3n(-2), where n is a positive integer. To determine if the sequence is increasing, decreasing, or not monotonic, we need to look at the difference between successive terms.

Let's calculate the first few terms of the sequence:

a1 = 3(1)(-2) = -6

a2 = 3(2)(-2) = -12

a3 = 3(3)(-2) = -18

The difference between successive terms is:

a2 - a1 = -12 - (-6) = -6

a3 - a2 = -18 - (-12) = -6

Since the difference between successive terms is always the same (-6), the sequence is decreasing, and the answer is B. decreasing.

Answer:

Using the substitution method, the y-coordinate of the solution to this system of equations is -4.

Using the elimination method, the y-coordinate of the solution to this system of equations is also -4.

Step-by-step explanation:

The correct answer is it becomes less likely to observe extreme values, such as 60 heads in 300 tosses, compared to observing extreme values, such as 6 heads in 30 tosses.

a. To calculate the probability of fewer than 6 heads in 30 tosses of a fair coin using the normal approximation to the binomial, we can use the formula:

Where X is the number of heads in 30 tosses of the coin. We can approximate the distribution of X as a normal distribution with mean μ = np = 30(0.5) = 15 and standard deviation σ = sqrt(np(1-p)) = sqrt(15(0.5)(0.5)) = 1.94.

Using these values, we can standardize the random variable X as:

[tex]Z = (X - μ) / σ = (5.5 - 15) / 1.94[/tex]

[tex]=-4.12[/tex]

Using a standard normal distribution table or calculator, we can find that P(Z < -4.12) is very close to 0. Therefore, the probability of fewer than 6 heads in 30 tosses is very close to 0.

b. To calculate the probability of fewer than 60 heads in 300 tosses of a fair coin using the normal approximation to the binomial, we can use the same formula:[tex]P(X < 60) = P(X ≤ 59.5)[/tex]

Where X is the number of heads in 300 tosses of the coin. We can again approximate the distribution of X as a normal distribution with mean μ = np = 300(0.5) = 150 and standard deviation σ =[tex]\sqrt{(np(1-p)) = sqrt(150(0.5)(0.5))}[/tex] = 6.12.

Using these values, we can standardize the random variable X as:[tex]Z = (X - μ) / σ = (59.5 - 150) / 6.12 ≈ -14.52[/tex]

Using a standard normal distribution table or calculator, we can find that P(Z < -14.52) is very close to 0. Therefore, the probability of fewer than 60 heads in 300 tosses is very close to 0.

An intuitive explanation for the difference: The probabilities of fewer than 6 heads in 30 tosses and fewer than 60 heads in 300 tosses are both very small, but the second probability is much smaller than the first. This is because the standard deviation of the binomial distribution increases as the number of trials increases, so the distribution becomes narrower and taller.

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The classical probability of rolling a seven with two dice is 6/36 or 1/6.

The best probability to determine the outcome of rolling seven with two dice is the classical probability.

Classical probability is based on the assumption that all outcomes in a sample space are equally likely, and it involves counting the number of favorable outcomes and dividing by the total number of possible outcomes.

In the case of rolling two dice, there are 36 possible outcomes, each with an equal chance of occurring. The number of ways to roll a seven is 6, as there are six combinations of dice rolls that add up to seven: (1,6), (2,5), (3,4), (4,3), (5,2), and (6,1). Therefore, the classical probability of rolling a seven with two dice is 6/36 or 1/6.

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Answer:

169.63 ft square is correct

area of circle is pi x radius squared

Step-by-step explanation:

so,

pi x 7.35 squared

pi x 54.0225

169.63 ft is correct answer

The solution of this differential equation dy/dx=x² + x for y(1) = 3 is y(x) = (1/3)x³ + (1/2)x² + 13/6.

To solve the differential equation dy/dx = x² + x with the initial condition y(1) = 3, follow these steps:

Step 1: Identify the given differential equation and initial condition
The differential equation is dy/dx = x² + x, and the initial condition is y(1) = 3.

Step 2: Integrate both sides of the differential equation with respect to x
∫dy = ∫(x² + x) dx

Step 3: Perform the integration
y(x) = (1/3)x³ + (1/2)x² + C, where C is the constant of integration.

Step 4: Use the initial condition to find the constant of integration
y(1) = (1/3)(1)³+ (1/2)(1)² + C = 3
C = 3 - (1/3) - (1/2) = 3 - 5/6 = 13/6

Step 5: Write the final solution
y(x) = (1/3)x³ + (1/2)x² + 13/6

So, the solution to the differential equation dy/dx = x² + x with the initial condition y(1) = 3 is y(x) = (1/3)x³ + (1/2)x² + 13/6

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Hi! To demonstrate an integer "n" in the ring ℤ that does not satisfy the properties a² = a implies a = 0 or a = 1, consider the integer n = -1.

Step 1: Choose an integer "a" from the ring ℤ.
Let's take a = -1.

Step 2: Square the integer "a."
a² = (-1)² = 1.

Step 3: Compare the result with the given properties.
The result (a² = 1) does not imply that a = 0 or a = 1, since we chose a = -1.

Thus, the integer n = -1 shows that the ring ℤ does not necessarily possess the properties that a² = a implies a = 0 or a = 1.

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Without the actual probability distribution,  It is unable to determine if taking 12 minutes is an unusual event or not.

To use the rare event rule, we need to calculate the probability of an event occurring that is as extreme or more extreme than the one we are interested in (in this case, Susan taking 12 minutes to drive to school). Looking at the probability distribution in Section 3.1 Exercises 15-18 of the text, we see that the probability of Susan taking 12 minutes to drive to school is:

P(x = 12) = 0.15

To determine if this is an unusual event, we need to compare it to a threshold value. One common threshold value is 0.05, which represents a 5% chance of an event occurring. If the probability of an event is less than 0.05, we consider it to be a rare or unusual event.

In this case, the probability of Susan taking 12 minutes to drive to school is 0.15, which is greater than 0.05. Therefore, we cannot consider it to be a rare or unusual event according to the rare event rule. However, it is worth noting that this threshold value is somewhat arbitrary and may be adjusted depending on the context of the problem.
To determine if it is unusual for Susan to take 12 minutes to drive to school using the rare event rule, we need to compare the probability of this event to a threshold, usually set at 0.05. Unfortunately, you haven't provided the probability distribution itself, so I can't calculate the exact probability for each value of x.

However, based on the given information in exercises 15-18, we know that x=12 minutes is one of the events considered in the probability distribution. To apply the rare event rule, you would calculate the probability of taking 12 minutes and compare it to the threshold (0.05). If the probability is less than or equal to 0.05, it would be considered unusual.

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The properties used by Elizabeth to solve equation are mentioned in option A,D,E and F.

These characteristics make it possible to modify equations while maintaining their consistency, which eventually aids in identifying the variable and the equation's solution.

In given steps to the solution of equation,

[tex]\frac{3(x-2)}{4} -5= -8[/tex]

[tex]\frac{3(x-2)}{4}= -3[/tex]        (Addition property of equality)

[tex]{3(x-2)}= -12[/tex]   (Multiplication property of equality)

[tex]3x-6=-12[/tex]      (Distributive property)

[tex]3x=-6[/tex]

[tex]x=-2[/tex]               ( Division property of equality)

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The first derivative of G(r) is (3/2).
The second derivative of G(r) is (-3/4)/√(r³).

To find the first derivative of G(r), we use the power rule of differentiation:

G'(r) = (1/2)r(-1/2) + 5(1/2)r(-1/2)

Simplifying, we get:

G'(r) = (1/2)(1 + 5)√(r)/√(r)

G'(r) = (3/2)√(r)/√(r)

G'(r) = (3/2)

To find the second derivative, we differentiate G'(r) using the power rule again:

G''(r) = (-1/4)r(-3/2) + 5(-1/4)r(-3/2)

Simplifying, we get:

G''(r) = (-3/4)r(-3/2)

G''(r) = (-3/4)/√(r^3)

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Answer:

312,480 downloads in one day

Step-by-step explanation:

There are different ways to approach this problem, but one possible method is to use unit conversions and basic arithmetic operations.

Here's how:

First, we need to know how many minutes are in a day. Since there are 24 hours in a day and 60 minutes in an hour, we can multiply those numbers:

24 x 60 = 1440 minutes

Next, we can use the given rate of downloads per minute (217) and multiply it by the total number of minutes in a day:

217 x 1440 = 312,480

Therefore, there are 312,480 downloads in one day.

The total number of matches played in the tournament will be the sum of all of these matches:
475 + 220 + 92 + 40 + 18 + 8 + 4 + 2 + 1 + 1 = 861

To determine the total number of matches to be played in the tournament, we need to first determine the number of rounds that will be played. Since each round eliminates half of the remaining players, we need to find the power of 2 that is closest to, but less than, the total number of players (951).

2^9 = 512 (too small)
2^10 = 1024 (too big)
2^8 = 256 (too small)
2^7 = 128 (too small)
2^6 = 64 (too small)
2^5 = 32 (too small)

Therefore, we can conclude that there will be 2^9 = 512 players in the first round, leaving 439 players. One player will be sitting out, since the number of players is odd. In the second round, there will be 2^8 = 256 matches played, with the 439 remaining players and the one player who sat out in the first round. This will leave 184 players for the third round, with one player sitting out again.

Continuing this pattern, we can determine that there will be 10 rounds in total, with the following number of matches played in each round:

Round 1: 475
Round 2: 220
Round 3: 92
Round 4: 40
Round 5: 18
Round 6: 8
Round 7: 4
Round 8: 2
Round 9: 1
Round 10: 1

The total number of matches played in the tournament will be the sum of all of these matches:

475 + 220 + 92 + 40 + 18 + 8 + 4 + 2 + 1 + 1 = 861

Therefore, there will be a total of 861 matches played in all the rounds of the tournament.

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The dimensions of the rectangle with the largest area that can be inscribed in the right triangle of height 4 units and hypotenuse 5 units are Length = 3 units and Width = 4 units

To find the dimensions of the rectangle with the largest area that can be inscribed in the right triangle of height 4 and hypotenuse 5, we need to use the fact that the rectangle will have its sides parallel to the legs of the right triangle.

Let's assume that the legs of the right triangle are a and b, with a being the height and b being the base. Then, we have

a = 4

c = 5

Using the Pythagorean theorem, we can find the length of the other leg

b = √(c^2 - a^2) = √(25 - 16) = 3

Now, we can see that the rectangle with the largest area that can be inscribed in this right triangle will have one side along the base of the triangle (which is b = 3), and the other side along the height (which is a = 4).

Therefore, the dimensions of the rectangle with the largest area that can be inscribed in this right triangle are

Length = 3

Width = 4

And the area of the rectangle is

Area = Length x Width = 3 x 4 = 12

So the rectangle with the largest area that can be inscribed in the right triangle of height 4 and hypotenuse 5 has dimensions 3 x 4 and area 12.

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Therefore, the solution to the differential equation with the given initial condition is: u(t) = -1/4 ln(6t² + e⁻⁶⁸)) - 1/4 ln(2).

Initial value problems are another name for differential equations with initial conditions. The example dydx=cos(x)y(0)=1 is used in the video up above to demonstrate a straightforward starting value issue. You get y=sin(x)+C by solving the differential equation without the initial condition.

For the separable differential equation to be solved:

[tex]u du/dt = e^(4u) 6t[/tex]

The variables can be rearranged and divided:

[tex]u du e^(-4u) du = 6t dt[/tex]

Integrating both sides, we get:

[tex](1/2)e^(-4u) = 3t^2 + C[/tex]

where C is the integration constant. We utilise the initial condition u(0) = 17 to determine C:

[tex](1/2)e^(-4(17)) = 3(0)^2 + CC = (1/2)e^(-68)[/tex]

When we put this C value back into the equation, we get:

[tex](1/2)e^(-4u) = 3t^2 + (1/2)e^(-68)[/tex]

After taking the natural logarithm and multiplying both sides by 2, we arrive at:

[tex]-4u = ln(6t^2 + e^(-68)) + ln(2)[/tex]

Simplifying, we have:

[tex]u = -1/4 ln(6t^2 + e^(-68)) - 1/4 ln(2)[/tex]

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A triangle which would not be classified as an Isosceles Triangle include the following: Triangle 1.

In Mathematics and Geometry, an isosceles triangle simply refers to a type of triangle with two (2) sides that are equal in length and two (2) equal angles.

In Mathematics, an equilateral triangle can be defined as a special type of triangle that has equal side lengths and all of its three (3) interior angles are equal.

In conclusion, we can reasonably infer and logically deduce that triangle 1 is an equilateral triangle, rather than an isosceles triangle because it has equal side lengths.

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The magnitude of the angular momentum of Earth is approximately 2.696 x [tex]10^37 kg m^2/s[/tex].

To find the magnitude of the angular momentum of Earth, we need to consider its mass, distance, and speed.

Step 1: Convert speed to meters per second (m/s) and distance to meters (m)
Speed: 30 km/s * 1000 m/km = 30,000 m/s
Distance: 149.6 gigameters * [tex]10^9[/tex] m/gigameter = 149.6 x [tex]10^9[/tex] m

Step 2: Calculate the angular momentum (L)
Angular momentum formula: L = m * r * v
where:
m = mass [tex](6.0 x 10^24 kg)[/tex]
r = distance (149.6 x [tex]10^9[/tex] m)
v = speed (30,000 m/s)

Step 3: Plug in the values and calculate
L = (6.0 x [tex]10^24[/tex] kg) * (149.6 x [tex]10^9[/tex] m) * (30,000 m/s)

Step 4: Simplify the expression
L = 2.696 x [tex]10^37[/tex] kg [tex]m^2[/tex]/s

The magnitude of the angular momentum of Earth is approximately [tex]2.696 x 10^37 kg m^2[/tex]/s.

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Step-by-step explanation:

Easy to just 'think' of the answer , but here is the mathematical solution:

x = first number

x + 1 = second number

4 *x  = 3 (x+1)     <=======given

4x = 3x + 3

x = 3     then the other number is  3 + 1 = 4