There are ten (5!/(2!*3!))possible combinations for the last two boxes. Of the ten, three include neither the Ã‚Â£100k nor the Ã‚Â£250k boxes, one includes both those boxes and six include just one of the Ã‚Â£100k and the Ã‚Â£250k boxes.

So the chances of having one or both of the Ã‚Â£100k and Ã‚Â£250k boxes in the last two are 70%.

**Moderators:** playgirl, JUS, rodbox

On a general point, Pulse's formula is correct - if you choose m objects from a total number of n objects then the number of different ways you can choose them is [n!/m!(n-m)!].

So if I'd asked the same question but the player had both big value boxes at the 8 box stage then the number of ways of choosing 2 boxes from 8 is [8!/2!6!] which is 28 and there are 13 possible combinations containing one or both boxes so the probability would be 13/28.

This may have been posted before so apologies if it has but I like it!

The day before yesterday I was 7 years old. Next year I will be 10 years old.

What is the date today & when is my birthday?

The day before yesterday I was 7 years old. Next year I will be 10 years old.

What is the date today & when is my birthday?

Rodney Marsh: "So how's your wifeÃ¢â‚¬Â¦and my kids?"

Ian Botham: "The wife's fine, but the kids are retarded."

Ian Botham: "The wife's fine, but the kids are retarded."

Let's assume that today is 1-1-10

the day before yesterday, your birthday on 30-12-2009, you were 7

Yesterday, your birthday on the 31-12-2009 you became 8.

Today, on the 1-1-2010 you are still 8.

So this year on the 31-12-2010 you become 9.

So next year on the 31-12-2011 you will be 10

It took me a long time to work it out - I hope I'm right :oops:

In geometry, what word describes two or more circles which have the same centre?

the day before yesterday, your birthday on 30-12-2009, you were 7

Yesterday, your birthday on the 31-12-2009 you became 8.

Today, on the 1-1-2010 you are still 8.

So this year on the 31-12-2010 you become 9.

So next year on the 31-12-2011 you will be 10

It took me a long time to work it out - I hope I'm right :oops:

In geometry, what word describes two or more circles which have the same centre?

QM