MATHEMATICS HIGH SCHOOL

Given the following functions f(x) and g(x), solve (f + g)(3) and select the correct answer below:f(x) = 2x + 21

g(x) = x − 24

Answers

Answer 1

Answer:

Answer:

Let f(x) and g(x) be the function then;

$(f+g)(x) = f(x)+g(x)$

Given the functions:

$f(x) = 2x+21$

$g(x) = x-24$

Solve for : $(f+g)(3)$

$(f+g)(3) = f(3)+g(3)$ .....[1]

Put x = 3 in f(x) and g(x) we have;

$f(3) = 2(3)+21 = 6+21 = 27$

and

$g(3) = 3-24 = -21$

Substitute these values in [1] we have;

$(f+g)(3) =27 +(-21) = 27-21 = 6$

Therefore, the value of $(f+g)(3)$ is 6

Answer 2

Answer: (f+g)(x) = 2x+21 +x-24= 3x -3now put x=3 in order to find (f+g)(3)(f+g)(3) = 3(3) -3= 9-3= 6, i hope this helps

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Find out the expected value and the standard deviation of the number of aces obtained in 60 rolls of a fair 6-face die. Ditto for 600 rolls. Use them to explain why the observed count of aces obtained is more likely to be within 2 from the expected value with 60 rolls than with 600 rolls.

Answers

Answer:

E(X) = 60*1/6 = 10

sd(X) = √8.666 = 2.886

E(Y) = 600*1/6 = 100

sd(Y) = √86.666 = 9.1287

Step-by-step explanation:

Lets call X the amount of aces obtained in 60 rolls, and Y the amount of aces obtained in 600 rolls.

Note that both X and Y are obtained from counting the amount of successful tries from repetitions of independent experiments that have 1/6 of probability of success. Thus, both X and Y are random variables with binomial distribution, with n = 60 and 600 respectively and probability 1/6.

Remember that if Z is a random variable, Z ≈ Bi(n,p), then

E(Z) = np, where E(Z) denotes the expected value of Z
V(Z) = np(1-p), where V(Z) denotes the variance of Z. Hence, the standard deviation is the square root of V(Z), √(np(1-p)).

As a result

E(X) = 60*1/6 = 10
V(X) = 10*(1-1/6) = 50/6 ≅ 8.666
sd(X) = √8.666 = 2.886
E(Y) = 600*1/6 = 100
V(Y) = 100*(1-1/6) = 500/6 ≅ 86.666

sd(Y) = √86.666 = 9.1287

The observed amount of aces is more likely to be closer from the expected value with 60 rolls because, since we have less rolls, it is more difficult to obtain spread results.

You can also notice that X and Y can be obtained by summing independent variables with distribution BI(1,p) (also called Bernoulli(p) ). When you sum independent variables with the same distribution you have this property:

E(r1+r2+...+rn) = n*E(r1)
V(r1+r2+...+rn) = n*V(r1)

sd(r1+r2+...+rn) = √n*sd(r1)

X can be obtained by summing 60 independent variables r1, ...., r60 with mean 1/6 and variance 1/6*(5/6) = 5/36. So we obtain that V(X) = 60*5/36, and sd(X) = √60 * √(5/36). While for the same argument sd(Y) = √600*√(5/36). The higher the number of rolls, the more spread the results are.

I hope this helped you!

The expected number of aces from 60 rolls of a fair die is 10 with a standard deviation of approximately 3.72. For 600 rolls, the expected number is 100 with a standard deviation of about 11.79. The observed count of aces is more likely to be closer to the expected value with fewer rolls due to the smaller standard deviation relative to the number of trials.

The expected value for the number of aces in a fair die roll is computed by multiplying the probability of rolling an ace $((1)/(6))$ by the number of rolls. For 60 rolls, the expected number is $60 * ((1)/(6)) = 10 aces$ . For 600 rolls, the expected number is $600 * ((1)/(6)) = 100 aces$

The standard deviation for the number of aces is calculated using the formula for the standard deviation of a binomial distribution, $\sqrt(n* p* (1-p))$ , where n is the number of trials, p the probability of success ( $((1)/(6))$ for an ace). For 60 rolls, it is $\sqrt(60* ((1)/(6))* ((5)/(6))) \approx 3.72$ . For 600 rolls, it's $\sqrt(60* ((1)/(6))* ((5)/(6))) \approx 11.79$ .

When you roll the die 60 times, the chances of the observed count of aces being within 2 from the expected value (10) is higher because the standard deviation is smaller relative to the number of trials than when you roll the die 600 times.

As the number of trials increases, the expected standard deviation grows larger, and the observed count is more likely to be within a wider range from the expected value (100).

Learn more about standard deviation here:

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4.5+(-12)+(-4.5) I need this answer now please

Answers

Answer:

-12

Step-by-step explanation:

There goes my hopes for Virtuoso rank....What are the zeros of the function y = x2 + 10x – 171, and why?

A) The zeros are x = –19 and x = 9 because in factored form, the function is y = (x – 19)(x + 9)

B) The zeros are x = –19 and x = 9 because in factored form, the function is y = (x + 19)(x – 9).

C) The zeros are x = 19 and x = –9 because in factored form, the function is y = (x – 19)(x + 9).

D) The zeros are x = 19 and x = –9 because in factored form, the function is y = (x + 19)(x – 9).

Answers

y = x^2 + 10x - 171
y = (x - 9)(x + 19)

x - 9= 0 x + 19 = 0
x = 9 x = -19

Answer B covers all requirements... the factored form is
y= (x + 19)(x - 9)
and the zeros are -19 and 9

What is the value of x when -8 x - (8x) = -48?

Answers

Answer:

x=3

Step-by-step explanation:

-8x-(8x)=-48

-8x-8x=-48

Collect like terms

-16x=-48

Divide both sides by-16

x=3

A quadratic equation is written in four equivalent forms below. I. y = (x - 1)2 - 49 II. y = x2 - 2x - 48 III. y = (x + 6)(x - 8) IV. y = x(x - 2) - 48 Which of the forms shown above would be the most useful if attempting to find the x-intercepts of the quadratic equation?

Answers

The x-intercept also known as the root of a quadratic can be found by solving the equation with respect to x.

III is the most useful for finding the roots
you would simply equate each term to

So y= x + 6 AND y= x - 8
0= x + 6 0= x - 8
x= -6 x= 8

: . x-intercepts are x= -6 & x= 8

What is (2x-3) squared?