HSC 2015 MX2 Permutations & Combinations Marathon (archive) (4 Viewers)

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InteGrand

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Re: 2015 permutation X2 marathon

What is his chance if he fires at nothing - a deliberate miss?
Lol is that allowed? They could all just keep doing deliberate misses and then everyone survives.
 

turnerloos

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Re: 2015 permutation X2 marathon

Meanwhile me... "An unbiased coin is tossed. What is probability of landing a head?"
 

braintic

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Re: 2015 permutation X2 marathon

Lol is that allowed? They could all just keep doing deliberate misses and then everyone survives.
We are assuming they don't conspire just to survive.
He is allowed to shoot wherever he wants - he can fire it into his mother-in-law as a bonus if he wants.
But this gives him the greatest chance of surviving.
 

Drsoccerball

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Re: 2015 permutation X2 marathon

We are assuming they don't conspire just to survive.
He is allowed to shoot wherever he wants - he can fire it into his mother-in-law as a bonus if he wants.
But this gives him the greatest chance of surviving.
You never said he could shoot blanks... hmmm well i guess if he purposefully misses a shot he has a 3/10 chance of winning which is higher than the others...
 

braintic

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Re: 2015 permutation X2 marathon

You never said he could shoot blanks... hmmm well i guess if he purposefully misses a shot he has a 3/10 chance of winning which is higher than the others...
I said "... shooting once at the shooter's choice of target." There was nothing to say the target had to be one of the other two men. It could be a bird in the tree, a particular blade of grass, ....... or the person who last challenged him on his wording in a maths problem.
 

Paradoxica

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Re: 2015 permutation X2 marathon

I said "... shooting once at the shooter's choice of target." There was nothing to say the target had to be one of the other two men. It could be a bird in the tree, a particular blade of grass, ....... or the person who last challenged him on his wording in a maths problem.
lol. that would make a great sig
 

braintic

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Re: 2015 permutation X2 marathon


"On a given circle, a chord is selected at random. What is the probability that the chord is longer than the radius?"


Explain the ambiguity in this question. (This is my main point in asking this question)

Remove the ambiguity, then answer your particular version (or versions) of the question.

_______________________________________________________________________________

A related question:

You wish to randomly sample points on a unit disc by choosing points mathematically (NOT physically by throwing a dart or similar method). Perhaps the disc is Flatland, and you wish to find a representative figure for the average temperature over all of Flatland by sampling the temperature at a number of randomly chosen points.

One method is to centre the disc at the origin of the Cartesian plane, randomly choose a value from -1 to 1 for the x value, and another value from -1 to 1 for the y-value, then exclude points which are more than one unit from the origin. This method does indeed give a random smattering of points over the disc, but I want to debar this method for a reason I will explain later.


A second method is to randomly choose a number between 0 and 1 for the radius, then randomly choose an angle of rotation between 0 and 2π (in other words, polar coordinates).

(a) Explain why this method does not give an even distribution of points over the disc.
(b) How would you adjust the randomly chosen numbers (r and/or θ) to give such an even distribution?
 
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braintic

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Re: 2015 permutation X2 marathon

No takers? I'm happy for non 2015ers to join in.
 

InteGrand

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Re: 2015 permutation X2 marathon


"On a given circle, a chord is selected at random. What is the probability that the chord is longer than the radius?"


Explain the ambiguity in this question. (This is my main point in asking this question)

Remove the ambiguity, then answer your particular version (or versions) of the question.

_______________________________________________________________________________

A related question:

You wish to randomly sample points on a unit disc by choosing points mathematically (NOT physically by throwing a dart or similar method). Perhaps the disc is Flatland, and you wish to find a representative figure for the average temperature over all of Flatland by sampling the temperature at a number of randomly chosen points.

One method is to centre the disc at the origin of the Cartesian plane, randomly choose a value from -1 to 1 for the x value, and another value from -1 to 1 for the y-value, then exclude points which are more than one unit from the origin. This method does indeed give a random smattering of points over the disc, but I want to debar this method for a reason I will explain later.


A second method is to randomly choose a number between 0 and 1 for the radius, then randomly choose an angle of rotation between 0 and 2π (in other words, polar coordinates).

(a) Explain why this method does not give an even distribution of points over the disc.
(b) How would you adjust the randomly chosen numbers (r and/or θ) to give such an even distribution?




 
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braintic

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Re: 2015 permutation X2 marathon

A third possibility - and this connects with my second problem:

Pick a point at random within the circle. Provided this point is not the centre, this point can be the midpoint of only one chord.
If the points are chosen perfectly randomly inside the circle, the probability can be shown to be 3/4.

Which leads to the second question. The reason I am asking that is that it leads on to another question which I don't know the answer for. I asked it a year or two ago and didn't get a satisfactory answer, mainly because no-one seemed to understand what I was asking. I am hoping this question will provide a good lead-in to the other question.
 

InteGrand

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Re: 2015 permutation X2 marathon

A third possibility - and this connects with my second problem:

Pick a point at random within the circle. Provided this point is not the centre, this point can be the midpoint of only one chord.
If the points are chosen perfectly randomly inside the circle, the probability can be shown to be 3/4.

Which leads to the second question. The reason I am asking that is that it leads on to another question which I don't know the answer for. I asked it a year or two ago and didn't get a satisfactory answer, mainly because no-one seemed to understand what I was asking. I am hoping this question will provide a good lead-in to the other question.


 
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seanieg89

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Re: 2015 permutation X2 marathon

Judging by the way you have worded things you would like a way to randomly choose a point inside the unit disk given that you have a way of randomly choosing a points inside any given interval. (Ignoring the method of randomly choosing points inside the circumscribing box and rejecting those that lie outside the disk.)

The way to do this is to choose your radial coordinate to not have any distortion.

In standard polar coordinates, the infinitesimal area element is , which can by found by considering the area of the the tiny sector of an annulus where and lie in some tiny intervals respectively. This region is approximately rectangular, and multiplying its side lengths together give you the quantity claimed. To do this more rigorously you use Jacobians to change variables in a double integral, which is a higher dimensional analogue of integration by substitution.

The r dependence is the problem here, so we would like to use a differently defined radial variable (say s) such that
We might as well take C=0 to keep the origin at s=0.

Now the process of choosing a point at random in the unit disk is by randomly choosing a pair of real numbers and taking the point




To summarise in a way that is applicable to choosing points randomly on more general regions/surfaces/manifolds, we would like to find a function F that maps a rectangular region to our shape in question such that F does not distort area. This distortion is quantified by the Jacobian determinant of F.
 
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seanieg89

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Re: 2015 permutation X2 marathon

(And quantities like dx are understood rigorously as things called differential forms.)
 

braintic

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Re: 2015 permutation X2 marathon

Judging by the way you have worded things you would like a way to randomly choose a point inside the unit disk given that you have a way of randomly choosing a points inside any given interval. (Ignoring the method of randomly choosing points inside the circumscribing box and rejecting those that lie outside the disk.)

The way to do this is to choose your radial coordinate to not have any distortion.

In standard polar coordinates, the infinitesimal area element is , which can by found by considering the area of the the tiny sector of an annulus where and lie in some tiny intervals respectively. This region is approximately rectangular, and multiplying its side lengths together give you the quantity claimed. To do this more rigorously you use Jacobians to change variables in a double integral, which is a higher dimensional analogue of integration by substitution.

The r dependence is the problem here, so we would like to use a differently defined radial variable (say s) such that
We might as well take C=0 to keep the origin at s=0.

Now the process of choosing a point at random in the unit disk is by randomly choosing a pair of real numbers and taking the point


To summarise in a way that is applicable to choosing points randomly on more general regions/surfaces/manifolds, we would like to find a function F that maps a rectangular region to our shape in question such that F does not distort area. This distortion is quantified by the Jacobian determinant of F.

Hmmm .... I've HEARD of a Jacobian - I guess I learned it 30 years ago.

For this particular question, do we really need calculus?

I figured that θ didn't need to be modified - the points would already be evenly distributed around the circle.
It should only be r that needs to be modified.

If I pick an initial value of r between 0 and 1, I want to turn it into a new value R so that:

(Area enclosed by circle of radius R) / (Area of disc) = r







You might recall my follow-up question from when I asked it a year or two ago. I don't think you understood what I was asking at the time.

I want to do a similar thing on the surface of the earth.

That is, I want to randomly pick a number between -90 and 90 [OR -π/2 and π/2 OR -1 and 1] and turn it into a latitude so that I can sample the earth's surface with evenly distributed points. It should be clear that trying to pick a random latitude directly will cause a greater density of sample points near the poles than near the equator.

I tried to do this in a similar way to the disk question. I looked up the surface area of a spherical cap (yes I could have integrated to find that). Then I tried to turn the randomly chosen latitude α into a new latitude β such that the surface area between the equator and the parallel of latitude β was α/90 that of the entire hemisphere.
But I got a nonsensical answer - α=90 should give β=90, and it didn't.

Any thoughts about my line of thinking? I'd prefer to avoid calculus if possible. (ie. I'm happy to accept the formula for the SA of a spherical cap)
 
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