Since who ever goes first (say "A") has the same chance of killing the other ("B")... that is 1/6...

"A" might as well go first.. to increase the chance... and hope "B" gets killed... and "B" will never have the chance to strike back.

If "B" survives.... then it is back to square one.

So, who ever goes first have higher success rate.

Does this make sense??

The chance of being shot if you go first is

1/6+5/6×5/6×1/6+... = p

the chance if you go second is

5/6×1/6+5/6×5/6×5/6×1/6+... = 5/6 p

Thus best to go second and p = 6/11

There are 6 chambers in the gun (1,2,3,4,5,6) and the bullet has an equal chance of being in each chamber. Player A is getting shot at by half of the chambers (1,3,5) and B by the other half (2,4,6). There's a 50% chance of A being shot, and 50% chance of B being shot.

Let p for every shot = probability of the chamber containing the bullet * probability that the bullet is still in the gun (hasn't fired yet)

P(1st shot) = 1/6 * 6/6 = 1/6 (1/6 chance that the bullet still contains the bullet * 100% chance the gun still contains the bullet)
P(2nd shot) = 1/5 * 5/6 = 1/6 (assuming first shot didn't fire, 1 in 5 chance of the bullet * 5/6 chance the gun still contains the bullet)
P(3rd shot) = 1/4 * 4/6 = 1/6
P(4th shot) = 1/3 * 3/6 = 1/6
P(5th shot) = 1/2 * 2/6 = 1/6
Now, there's only one bullet left and 100 % chance of it still being in the gun but 1 in 6 chance that the game would get to this point:
P(6th shot) = 1/1 * 1/6 = 1/6

Person 1 = 1/6 + 1/6 + 1/6 = 50%
Person 2 = 1/6 + 1/6 + 1/6 = 50%

Makes no differnce

The given solution is false because it should be 5/6a=5/6b. If we assume that b shot first then for a the chance to win the game is 5/6 * the chance that he wins the resulting 5 chamber game in which he gets to go first. But for b the chance to win is 5/6 * the chance that he wins the resulting game of 5 chambers where he goes last. The answer modified a to mean winning the resulting 5 chamber game but he left b to mean winning the original 6 chamber game. and then he made the formula 5/6a=b which is correct but a+b=1 is not. It is not true that the chance that a wins the 5 chamber game after the first shot has been made + the chance that b wins the original 6 chamber game before the first shot has been made is 1. In fact with his new a and b a+b<1 since a has only 5/6 to happen while the original 6 chamber game a had 1 chance to happen.

There have been multiple comments showing different good arguments as to why both players have equal probability of winning. Allow me to add yet another good argument:

Assuming that players take turns shooting themselves instead of shooting the other, the chance that the first player dies is 1/6 on his first turn, 1/4 on his second, and 1/2 on his third. His first turn has 1 chance of happening, his second has (5/6)*(4/5) chance of happening , and his third has (5/6)*(4/5)*(3/4)*(2/3) chance of happening. That is because for every turn to happen all previous turns need to not result in a death, and every turn that someone does not die one empty chamber is out of the game. Add all those probabilities to get the chance that the person shooting first dies: (1/6)+(5/6)*(4/5)*(1/4)+(5/6)*(4/5)*(3/4)*(2/3)*(1/2)=1/2. Thus he has 1/2 chance to die and 1/2 chance to win and so does his opponent dince there will always be a winner and a die'er.

A lot of people aren't reading the problem carefully. The cylinder is spun after every shot. Each shot is 1/6. There are no "used chambers" when the next player shoots.

If I go first, let me calculate my death probability.
This is basically the sum of an infinite geometric progression.

* I die by the 1st shot: 1/6
* Both survive after the first 2 shots and I die by the 3rd shot: (5/6)^2 * 1/6
* Both survive after the first 4 shots and I die by the 5th shot: (5/6)^4 * 1/6
...and so forth

The sum of the above: 1/6 * (1/(1-(5/6)^2))
= 1/6 * 1/(1-25/36) = 1/6 * 36/11 = 6/11

If I go second, my death probability = 5/11