Sorry drb, I only really dealt with part of your answer. i totally agree that everyone has different needs and attitudes to risk etc. In that sense it does matter whether they see the amount in the envelope.

What I was commenting on and challenging was the idea that there is an equally likely chance of the other envelope containing twice as much or half as much. If someone calculated expected values on the assumption of a 50/50 chance of doubling or having then they'd always swap. So whether they see the amount or not doesn't affect the calculation. they'd still swap. But then they'd swap again. And again... and that's the paradox.

You wanted a spreadsheet O_G.
This spreadsheet proves nothing O_G but it may help show what's happening. Let's play 20 rounds. To make it fair I've put an equal number of Large and Small values in envelopes 1 and 2.

round Env1 Env2 stick swap

1 600 1200 600 1200
2 500 1000 500 1000
3 1200 600 1200 600
4 500 1000 500 1000
5 400 200 400 200
6 400 800 400 800
7 800 400 800 400
8 250 500 250 500
9 500 250 500 250
10 4000 2000 4000 2000
11 3000 6000 3000 6000
12 1000 2000 1000 2000
13 2000 4000 2000 4000
14 400 800 400 800
15 800 400 800 400
16 200 400 200 400
17 1000 500 1000 500
18 6000 3000 6000 3000
19 2000 1000 2000 1000
20 1000 500 1000 500
TOTAL 26550 26550

The total gained from sticking or swapping is the same in the long run.

Let's look at Round 1. We didn't know this until afterwards but the time the two envelopes had £600 and £1200 in. If we'd picked the £600 one first and swapped we'd have gained £600 by swapping. If we'd picked the £1200 one first we'd have lost £600 by swapping.

If the first pair of envelopes had £X and £2X in then by swapping you'd either gain X or lose X. So why bother swopping.

This of course is just based on maths- it ignores the issues someone called 'human frailties'

Thanks. I'll have a look at your data later.

I have copied it into Excel. I see that what you have done is started with £2400 as your starting envelope.
Unfortunately I keep getting zero when I try to sum your final column in Excel. Have you generated this column by either halving or doubling on a random basis or have you ensured that half the time it's £1200 and half the time it's £4800?

The theory is that, unlike the Monty Hall problem where switching is better, in the 2 envelope game there is no advantage in the long run in switching. However it's fair to say that many eminent mathematicians have tied themselves in knots over both problems and have disagreed on the answers.
I'm off out now but I'll try to explain it later. In the meantime I wonder whether Buenchico has a view on this. Like Chris and me, this puzzle has been around for alongtme

Thanks for all your input to this. It just confirms that probability and decision making is a very difficult areas and even what appears to be a simple problem can cause great minds (as we have on here) to scratch their heads and disagree. As was mentioned, before many authors have written about this problem at great length.

I'm pretty certain I know the answer but I'll tie myself in knots trying to explain so I'll leave it there for now unless anyone wants to pick me up on it again or has any further thoughts after mulling it over for a few days.

Good night all and thanks. (I was hoping Buenchico would see the thread though- Prudie saw it but wisely sidestepped it!)

That's why it's known as the two envelope Paradox, Ludwig. The more you think about it the more complicated our brain makes it. I agree with the first paragraph but start to disagree on your second. Basically all you know at the outset is that one envelope contains £X and the other contains £2X. You have a 50/50chance of picking the higher one first.

You then say that when considering a swap " the amount you stand to gain is greater than the amount you stand to lose, which makes it a logical option to take the 50:50 chance and swap.
But is that true?
You either started with £X or £2X, but don't know which you have. If it turned out that you'd started with the £X then you would gain £X (i.e. double your money) by swapping. If instead you'd started with the £2X envelope and swapped you'd be left with the smaller £X, so you'd have lost £X by swapping.

The flaw (which is the trap I fell into when i first looked at this) is to say I have an envelope with £Y in, therefore there is a 50% chance the other contains £2Y (so I'd gain £Y by swapping) and a 50% chance that the other contains £Y/2, so I'd lose half of £Y by swapping; therefore it's better to swap as the potential gain exceeds the potential loss. But that isn't the choice. There are only 2 envelopes not 3. What's in the other envelope has already been determined before the game started. That's the bit that is difficult to explain, and I know I'm not able to explain it very well.

Let's stand back from the problem and think of it as a simple choice. We are offered two envelopes- all we know is one contains more than the other. It doesn't really matter which we pick does it? If you choose one and then have the chance to change it, is there really any reason to swap? Whatever you do you always have a 50/50 chance of getting the bigger amount.