Pokerwiner.com → Lessons of poker
USING MATHEMATICS TO READ HANDS
When you can’t actually put a person on a hand but have reduced his possible hands to a limited number, you try to use mathematics to determine the chances of his having certain poker hands rather than other.
Then you decide what kind of hand you must have to continue playing. Using mathematics is particularly opponent might have is what you know about his opening, calling, and raising requirements. If, for example, you know an opponent will raise you with three 2s or better before the draw, you can resort to mathematics to determine what hand is favored to have him beat.
It works out to something like three queens. Obviously, then, if you have three 3s, it’s not worth calling that opponent’s raise on the chance that he has specifically three 2s.
But if you have something like three 5s or three 6s, the pot odds make it correct to call because now not only might you draw out on a better hand by making a full house or four of a kind, but there are a few hands your opponent could have which you already have beat.
Sometimes you can use a mathematical procedure based on Bayes’ Theorem to determine the chances an opponent has on or another hand. After deciding upon the kinds of hands your opponent would be betting in a particular situation, you determine the probability of his holding each of those hands.
Then you compare those probabilities. IF, for instance, in draw poker you know a particular player will open either with three-of-a-kind or two pair but will not open with one pair and will check as a slowplay with a pat hand, then it is 5-to-2 against that player’s having trips when he does open.
Why is this so? On average, according to draw poker distribution, a player will be dealt two pair 5 percent of the time and trips 2 percent of the time. When you compare these two percentages, you arrive at a radio of 5-to-2. Therefore, the player is a 5-to-2 favorite to have two pair.
Let’s say in holdem an opponent puts in a big raise before the flop, and you read him for the type of player who will raise only with two aces, two kings, or ace, king. The probability that a player gets two aces on the first two cards is 0.45 percent. The probability of his getting two kings is also 045 percent. So he will get two aces or two kings 0.9 percent of the time on average. The probability of his getting an ace, king is 1.2 percent. By comparing these two probabilities 1.2 percent and .9 percent you deduce that the chances are 4-to-3 in favor of your opponent’s having ace, king rather than two aces or two kings.
Of course, knowing your opponent is a 4-to-3 favorite to have ace, king is no enough by itself to justify calling his raise with, say, two queens. You are a small favorite if he does have ace, king, but you’re a big underdog if he has two aces or two kings. Nevertheless, the more you know about the chances of an opponent’s having one hand rather than another when he bets or raises, the easier it is for you to decide whether to fold, call, or raise. Earlier in this chapter we talked about a player in seven card stud raising on third poker street with a king showing, and we pointed out that he might have two kings, but he might also have a small pair or a three-flush or something like J,Q,K.
To simplify, we’ll assume you know this particular player will raise only with a pair of kings or a three-flush. You have a pair of queens. The probability is about 11 percent before the raise that your opponent has another king in the hole to make a pair of kings, and it’s about 5 percent that he has three of the same suit. This is simply the mathematical probability based on card distribution and has nothing to do with any action the player takes. Therefore, when your opponent raises, which now limits his possible hands on the basis of what you know about him to either two kings or a three-flush, he is an 11-to-15 favorite to have the tow kings, and you would probably fold your two queens.
However, another king showing somewhere on the table radically reduces the mathematical probability of your opponent’s having two kings among the unseen cards. The probability of your opponent’s having two kings is cut to about 7½ percent. A raise now makes it about 40 percent that your opponent has a three-flush rather than two kings, Depending upon position, your queens may be strong enough to justify a call.
In this case you read your opponent’s hand not just on the basis of what you know about him, the action he takes, and the exposed card you see, but also on the basis of a mathematical comparison of his possible hands.
It does not, of course, take a mathematical genius to realize that another king on the table decreased the chances of an opponent’s having two kings before he raise, so using math to read hands does not always require the precise knowledge of card-distribution probabilities presented here.
Furthermore, you need to complement mathematical conclusions with what you know about a player. For example, in a relatively small-ante game, some players might not raise with two kings when there is no other kings when there is a king showing to try to win the pot right there.
They decide to go for the pot right away precisely because of the presence of that other king, which reduces their chances of improving. When you are up against such players, the presence of another king might actually increase the probability of their having two kings after they raise not on the basis of mathematics but on the basis of the action they have taken and what you know about the way they play.