Odds Of Hitting Poker Hands
- Odds Of Hitting Poker Hands In Golf
- Odds Of Hitting Poker Hands Play
- Odds Of Hitting Poker Hands Spread
- Odds Of Making Poker Hands
- Odds Of Hitting Poker Hands Signals
- Odds Of Hitting Poker Hands
Chances of hitting, flopping and holding certain hands
For example, the odds of your favorite football team losing a match maybe 1 to 5. The odds of you winning a lottery might by 1 to 10,000. On the other hand, the odds of the horse you bet on winning the race may be equal to 4 to 3. What do these numbers mean? There are two types of odds ratios: 'odds of winning' and 'odds of losing'. Here are the most important odds and probabilities for poker Flush hands: The odds of hitting a Flush on the flop is 0.1965% with any random hand. The odds of flopping a Flush is 0.82% when you have a suited starting hand. The probability of flopping a Flush draw with any suited hand is 10.9%.
These odds are a must know if you want to advance your game to a high level. For exact odds you can check out our poker hand odds calculator. We rounded the number to the nearest decimal for you.
You should know what beats what in poker before trying to apply these odds or playing like you see poker on tv and in commercials.
Scenarios – Chances of Having Certain Hands | Examples | Probability | ||
Chances of Being Dealt | ||||
Pair | 6h 6d | 6% | ||
Suited Cards | Ah 10h | 24% | ||
Connecting Suits | 2d 3d | 4% | ||
Aces or Kings | AA KK | .9% | ||
Ace King | AhKs | 1.2% | ||
Ace King Suited | AhKh | .3% | ||
An Ace | A3 | 16% | ||
Cards Jacks or Higher not Paired | KJ | 9% | ||
Not Suited & Not Connected | 9h 4s | .9% | ||
Bad Beats | ||||
Bad Beat ex: Aces vs Kings heads up | AA vs KK | .004% | ||
Chances of Hitting on Flop | ||||
Pocket Pair Into A Set | JJ into JJJ | 8% | ||
Pair Turning Into A Set On Turn | 4% | |||
Hitting Pair on Flop | 32% | |||
Flopping Four To Flush-You hold 6h7h-flop comes-> | Ah Kh 2s | 11% | ||
Chances of Board Coming All Same | 5h 5s 5d | .004% | ||
Number of Players To Flop Odds | ||||
Situation – Chances someone hit top pair on board | ||||
5 players see flop | 58% | |||
4 players see flop | 47% | |||
3 player see flop | 35% | |||
2 player see flop | 23% | |||
After Flop – Chances of Making Hand | ||||
Making open straight – You hold 67 Flop comes 8,9,2 | turn 10 | 34% | ||
Two pair to full house – You- 47 Board 4,7,10 Turn –> | 7 | 17% | ||
Hitting A Gut Shot Straight | 17% | |||
Backdoor Flush – You have 1 spade – Board 2s4h8s | 10s 7s | 4% | ||
Runner Runner Straight | 1.5% | |||
Hitting Either Gut Shot Straight or Backdoor Flush | 21% | |||
Pairing An Ace on Turn or River | 13% | |||
Before Any Cards Are Dealt – Chances of Getting | ||||
Royal Flush (All Spades) | AKQJ10 | .0002% | ||
Straight Flush (Any same suits) | 56789 | .0012% | ||
Four of a Kind (Quads) | 5555K | .0239% | ||
Full House (Boat) | 33322 | .144% | ||
Flush (all same suit) =>all hearts | 37K48 | .19% | ||
Straight | 34567 | .35% | ||
Three of a Kind | 555AK | 2.11% | ||
Two Pair | AAKK2 | 4.7% | ||
One Pair | 77253 | 42% | ||
Don’t catch anything | 2854K | 50% |
Why Poker Odds Matter
Why Odds Matter To any good Texas Holdem players these odds come naturally. They may not know the exact percentage but they instinctively know their odds. Referencing this table is a great way to understand your percentages if you are a new player or if you want to calculate your pot odds.
We developed what we believe are the best formulas for calculating pot odds that you will find on the internet. It is the same way the pros calculate their pot odds and we also simplified it for those of you who are not that good at math. Check out the Pot Odds section.
This post works with 5-card Poker hands drawn from a standard deck of 52 cards. The discussion is mostly mathematical, using the Poker hands to illustrate counting techniques and calculation of probabilities
Odds Of Hitting Poker Hands In Golf
Working with poker hands is an excellent way to illustrate the counting techniques covered previously in this blog – multiplication principle, permutation and combination (also covered here). There are 2,598,960 many possible 5-card Poker hands. Thus the probability of obtaining any one specific hand is 1 in 2,598,960 (roughly 1 in 2.6 million). The probability of obtaining a given type of hands (e.g. three of a kind) is the number of possible hands for that type over 2,598,960. Thus this is primarily a counting exercise.
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Preliminary Calculation
Usually the order in which the cards are dealt is not important (except in the case of stud poker). Thus the following three examples point to the same poker hand. The only difference is the order in which the cards are dealt.
Odds Of Hitting Poker Hands Play
These are the same hand. Order is not important.
The number of possible 5-card poker hands would then be the same as the number of 5-element subsets of 52 objects. The following is the total number of 5-card poker hands drawn from a standard deck of 52 cards.
The notation is called the binomial coefficient and is pronounced “n choose r”, which is identical to the number of -element subsets of a set with objects. Other notations for are , and . Many calculators have a function for . Of course the calculation can also be done by definition by first calculating factorials.
Thus the probability of obtaining a specific hand (say, 2, 6, 10, K, A, all diamond) would be 1 in 2,598,960. If 5 cards are randomly drawn, what is the probability of getting a 5-card hand consisting of all diamond cards? It is
This is definitely a very rare event (less than 0.05% chance of happening). The numerator 1,287 is the number of hands consisting of all diamond cards, which is obtained by the following calculation.
The reasoning for the above calculation is that to draw a 5-card hand consisting of all diamond, we are drawing 5 cards from the 13 diamond cards and drawing zero cards from the other 39 cards. Since (there is only one way to draw nothing), is the number of hands with all diamonds.
If 5 cards are randomly drawn, what is the probability of getting a 5-card hand consisting of cards in one suit? The probability of getting all 5 cards in another suit (say heart) would also be 1287/2598960. So we have the following derivation.
Thus getting a hand with all cards in one suit is 4 times more likely than getting one with all diamond, but is still a rare event (with about a 0.2% chance of happening). Some of the higher ranked poker hands are in one suit but with additional strict requirements. They will be further discussed below.
Another example. What is the probability of obtaining a hand that has 3 diamonds and 2 hearts? The answer is 22308/2598960 = 0.008583433. The number of “3 diamond, 2 heart” hands is calculated as follows:
One theme that emerges is that the multiplication principle is behind the numerator of a poker hand probability. For example, we can think of the process to get a 5-card hand with 3 diamonds and 2 hearts in three steps. The first is to draw 3 cards from the 13 diamond cards, the second is to draw 2 cards from the 13 heart cards, and the third is to draw zero from the remaining 26 cards. The third step can be omitted since the number of ways of choosing zero is 1. In any case, the number of possible ways to carry out that 2-step (or 3-step) process is to multiply all the possibilities together.
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The Poker Hands
Here’s a ranking chart of the Poker hands.
The chart lists the rankings with an example for each ranking. The examples are a good reminder of the definitions. The highest ranking of them all is the royal flush, which consists of 5 consecutive cards in one suit with the highest card being Ace. There is only one such hand in each suit. Thus the chance for getting a royal flush is 4 in 2,598,960.
Royal flush is a specific example of a straight flush, which consists of 5 consecutive cards in one suit. There are 10 such hands in one suit. So there are 40 hands for straight flush in total. A flush is a hand with 5 cards in the same suit but not in consecutive order (or not in sequence). Thus the requirement for flush is considerably more relaxed than a straight flush. A straight is like a straight flush in that the 5 cards are in sequence but the 5 cards in a straight are not of the same suit. For a more in depth discussion on Poker hands, see the Wikipedia entry on Poker hands.
The counting for some of these hands is done in the next section. The definition of the hands can be inferred from the above chart. For the sake of completeness, the following table lists out the definition.
Definitions of Poker Hands
Poker Hand | Definition | |
---|---|---|
1 | Royal Flush | A, K, Q, J, 10, all in the same suit |
2 | Straight Flush | Five consecutive cards, |
all in the same suit | ||
3 | Four of a Kind | Four cards of the same rank, |
one card of another rank | ||
4 | Full House | Three of a kind with a pair |
5 | Flush | Five cards of the same suit, |
not in consecutive order | ||
6 | Straight | Five consecutive cards, |
not of the same suit | ||
7 | Three of a Kind | Three cards of the same rank, |
2 cards of two other ranks | ||
8 | Two Pair | Two cards of the same rank, |
two cards of another rank, | ||
one card of a third rank | ||
9 | One Pair | Three cards of the same rank, |
3 cards of three other ranks | ||
10 | High Card | If no one has any of the above hands, |
the player with the highest card wins |
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Counting Poker Hands
Straight Flush
Counting from A-K-Q-J-10, K-Q-J-10-9, Q-J-10-9-8, …, 6-5-4-3-2 to 5-4-3-2-A, there are 10 hands that are in sequence in a given suit. So there are 40 straight flush hands all together.
Four of a Kind
There is only one way to have a four of a kind for a given rank. The fifth card can be any one of the remaining 48 cards. Thus there are 48 possibilities of a four of a kind in one rank. Thus there are 13 x 48 = 624 many four of a kind in total.
Full House
Let’s fix two ranks, say 2 and 8. How many ways can we have three of 2 and two of 8? We are choosing 3 cards out of the four 2’s and choosing 2 cards out of the four 8’s. That would be = 4 x 6 = 24. But the two ranks can be other ranks too. How many ways can we pick two ranks out of 13? That would be 13 x 12 = 156. So the total number of possibilities for Full House is
Note that the multiplication principle is at work here. When we pick two ranks, the number of ways is 13 x 12 = 156. Why did we not use = 78?
Flush
There are = 1,287 possible hands with all cards in the same suit. Recall that there are only 10 straight flush on a given suit. Thus of all the 5-card hands with all cards in a given suit, there are 1,287-10 = 1,277 hands that are not straight flush. Thus the total number of flush hands is 4 x 1277 = 5,108.
Straight
There are 10 five-consecutive sequences in 13 cards (as shown in the explanation for straight flush in this section). In each such sequence, there are 4 choices for each card (one for each suit). Thus the number of 5-card hands with 5 cards in sequence is . Then we need to subtract the number of straight flushes (40) from this number. Thus the number of straight is 10240 – 10 = 10,200.
Three of a Kind
There are 13 ranks (from A, K, …, to 2). We choose one of them to have 3 cards in that rank and two other ranks to have one card in each of those ranks. The following derivation reflects all the choosing in this process.
Odds Of Hitting Poker Hands Spread
Two Pair and One Pair
These two are left as exercises.
Odds Of Making Poker Hands
High Card
The count is the complement that makes up 2,598,960.
The following table gives the counts of all the poker hands. The probability is the fraction of the 2,598,960 hands that meet the requirement of the type of hands in question. Note that royal flush is not listed. This is because it is included in the count for straight flush. Royal flush is omitted so that he counts add up to 2,598,960.
Odds Of Hitting Poker Hands Signals
Odds Of Hitting Poker Hands
Probabilities of Poker Hands
Poker Hand | Count | Probability | |
---|---|---|---|
2 | Straight Flush | 40 | 0.0000154 |
3 | Four of a Kind | 624 | 0.0002401 |
4 | Full House | 3,744 | 0.0014406 |
5 | Flush | 5,108 | 0.0019654 |
6 | Straight | 10,200 | 0.0039246 |
7 | Three of a Kind | 54,912 | 0.0211285 |
8 | Two Pair | 123,552 | 0.0475390 |
9 | One Pair | 1,098,240 | 0.4225690 |
10 | High Card | 1,302,540 | 0.5011774 |
Total | 2,598,960 | 1.0000000 |
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2017 – Dan Ma