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ACTL1101 Questions Help (mostly first year uni probability) (2 Viewers)

1008

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Hi

I am doing ACTL1101 at UNSW this semester, so I'd like to ask a few first year probability questions here:

 

1008

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Thanks

 
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InteGrand

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I think there are typos here because the sums don't really make sense. (I presume i was meant to be a summation index, but it appears in the limits of summation too, which a summation index should never do. Also, r hasn't been defined I think.)

I guess the first sum should just say that the sum over all i of n_i is m. (I.e. Total no. of families is m.) In fact, for both sums, the sums are just over all values of i.
 
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1008

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I think there are typos here because the sums don't really make sense. (I presume i was meant to be a summation index, but it appears in the limits of summation too, which a summation index should never do. Also, r hasn't been defined I think.)

I guess the first sum should just say that the sum over all i of n_i is m. (I.e. Total no. of families is m.)
I checked but I couldn't find any errors/typos I've made. I think you can assume r to be the highest number of children in one single family.
 

InteGrand

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I checked but I couldn't find any errors/typos I've made. I think you can assume r to be the highest number of children in one single family.
Don't worry, I think I've figured out what the Q. is asking. If you haven't made a typo, then the Q. itself essentially has a typo I think, because i is meant to be the thing we're summing over, yet it appears as the lower limit of a sum, which cannot happen.
 

InteGrand

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Here are some hints for a method:

• For any given i, find an expression for Pr(X = i), i.e. The probability that the randomly chosen family is a family with i children. This expression is very simple and easy to find once you understand the notation used.

• Thus, write down an expression for E[X] using the definition of expectation for discrete r.v.'s.

• Repeat the above two steps for Y (again, this is very simple to do once you've gotten your head around the notation).

• Using your expressions for E[Y] and E[X], derive the required inequality (it shouldn't be too hard to do once you have the expressions).
 

1008

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Here are some hints for a method:

• For any given i, find an expression for Pr(X = i), i.e. The probability that the randomly chosen family is a family with i children. This expression is very simple and easy to find once you understand the notation used.

• Thus, write down an expression for E[X] using the definition of expectation for discrete r.v.'s.

• Repeat the above two steps for Y (again, this is very simple to do once you've gotten your head around the notation).

• Using your expressions for E[Y] and E[X], derive the required inequality (it shouldn't be too hard to do once you have the expressions).
Alright thanks for that, will look into it tomorrow and will let you know how I went.
 

leehuan

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Where are these questions from?
 

1008

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Here are some hints for a method:

• For any given i, find an expression for Pr(X = i), i.e. The probability that the randomly chosen family is a family with i children. This expression is very simple and easy to find once you understand the notation used.

• Thus, write down an expression for E[X] using the definition of expectation for discrete r.v.'s.

• Repeat the above two steps for Y (again, this is very simple to do once you've gotten your head around the notation).

• Using your expressions for E[Y] and E[X], derive the required inequality (it shouldn't be too hard to do once you have the expressions).
Oh and yeah thanks I figured it out...
 

leehuan

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Lols

Tbh whilst I'm here, it's like the easiest distribution to learn (just a special case of binomial) but I don't think the Bernoulli distribution explicitly is a part of ACTL1101
 

leehuan

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Something's weird...

Just by inspection I could tell that the expectation for the second case would be higher than the first. But why should I not be surprised that the variances are the exact same?

I have a feeling this isn't just by coincidence...
 
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InteGrand

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Something's weird...

Just by inspection I could tell that the expectation for the second case would be higher than the first. But why should I not be surprised that the variances are the exact same?

I have a feeling this isn't just by coincidence...
Note that A = 25000 – B, where A is the r.v. describing the value from investment A, and similarly for B.

Therefore, by properties of variance (namely that an additive constant doesn't change the variance, and neither does the presence of a multiplicative factor of -1), we have

Var(A) = Var(25000 – B) = Var(B).
 

1008

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Is it true that:




If so, what theorem is it?
 
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InteGrand

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leehuan

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Confession: Very screwed for this course. lol
 

leehuan

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Please explain where their product came from? :)

Company NewGen has one electirc generator that has five components. All five components are required to work to produce electricity. The time until failure for each component follows an exponential distribution with mean 10. The times until failure for the five components are independent.

What is the expected value of the time that the generator produces electricity.

 

InteGrand

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Please explain where their product came from? :)

Company NewGen has one electirc generator that has five components. All five components are required to work to produce electricity. The time until failure for each component follows an exponential distribution with mean 10. The times until failure for the five components are independent.

What is the expected value of the time that the generator produces electricity.







 
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