Here is a summary of what you have learnt in this session.

First, you were introduced to two main counting principles through which you can calculate the probability for the outcomes that you are interested in. These counting principles are as follows:

**Permutations:**A permutation is a way of arranging a selected group of objects in such a way that**the order is of significance**. For example, arranging some letters to form different words, arranging the top order batsmen of a team, or finding all the ways in which a group of friends can be seated in a cinema hall – all these methods use permutations. When there are ‘n’ objects to be arranged among ‘r’ spaces, the permutation value is given by the following formula:

**Combinations:**When you just have to choose some objects from a larger set and**the order is of no significance**, then the rule of counting that you use is called combination. For example, if you need to find the number of ways to choose three vowels from the given list of give, or choose four bowlers from the given roster of seven – all these methods use combinations. If you want to choose ‘r’ objects from a larger set of ‘n’ objects, then the number of ways in which you can do that is given by the following formula:

Next, you learnt about some specific terms related to probability – events, sample space and experiments. You also learnt some basic rules of probability such as follows:

- Probability values always lie between 0 and 1.

- Probability values for all outcomes of an experiment always add up to 1.

Then, you learnt about specific types of events that can be encountered while computing probabilities of more than two events. They are as follows:

**Independent events:**If you have two or more events and the occurrence of one event has no bearing whatsoever on the occurrence/s of the other event/s, then all the events are said to be independent of each other.

**Disjoint or mutually exclusive events:**Now, two or more events are mutually exclusive when they do not occur at the same time, i.e., when one event occurs, the rest of the events do not occur.

You also learnt about the idea of complement **A’** for any event A and the probability rule for them, i.e., **P(A) + P(A’) =1.**

Next, you were introduced to two main rules of probability that help you in finding the probabilities of two or more events. They are as follows:

**Addition rule:**When you have the individual probabilities of two events A and B, denoted by**P(A)**and**P(B)**, the addition rule states that the probability of the event that either A or B will occur is given as

** P(A∪B) = P(A) + P(B) – P(A∩B),**