Probability Basics : Lesson 1

Today we explore the basic concepts of Probability.

Probability is the measure of the likelihood of an "event" to occur.
For example, when we toss a fair coin, the chances of a head turning up are 1/2. When we roll a dice the chance of 2 appearing is 1/6.

Important Terms:

1. Sample Space : The collection of all results is called the sample space of the event.
For example, when a coin is tossed, the Sample space(S) is the set {Head, Tails}.
When a dice is rolled, S = {1,2,3,4,5,6}

2. Event: A subset of the S is called an event. For example, when a coin is tossed, {Head}, {Tail} are events. Note that an event set can contain multiple items. For example when 2 coins are tossed, {Head,Head} is considered an event.

3. Equally Probable Events: When 2 events have the same likelihood of occuring, they are known as Equally Probable events. For example the chance of head and tails turning up on the toss of a coin are Equally Probable events.

Probability

The Probability of an event occurring is defined as the number of cases favorable for the event divided by total number of events in the sample space.

If the event be called as 'A', the probability is represented as P(A)

Example: Probability that head shows up on tossing a coin

Favorable Cases : Head (1)

Sample Space: Head, Tail (2)

P(A) = Favorable Cases/Sample Space = 1/2

P(A') is used to represent the probability of event A not occurring.

Note: P(A) + P(A') = 1

If we have 2 events A,B as the overall sample space, then:

P(A) = A / (A+B) and P(B) = B / (A + B)

Independent Events and Mutually Exclusive Events

A regular confusion among students is the difference between Independent and Mutually exclusive Events. 

Let A, B be 2 events. P(A and B) = P (A ∩ B ) is defined as the probability that both A and B occur together.

For 2 independent events A, B, P(A ∩ B ) = P(A) * P(B)

For Mutually Exclusive events, P(A ∩ B ) = 0

This is best understood with an example.

Consider a fair coin and a fair six-sided die. Let event A be obtaining tails, and event B be rolling a 3. Then we can safely say that events A and B are independent, because the outcome of one does not affect the outcome of the other.

Here, P(A ∩ B ) = 1/2 * 1/6 = 1/12.
Here A and B are Independent Events (Not mutually exclusive).


Consider a fair six-sided dice, where even-numbered faces are colored red, and the odd-numbered faces are colored green. Let event A be rolling a green face, and event B be rolling a 6.

P(A) = 3/6 = 1/2
P(B) = 1/6

But note that A&B cannot occur simultaneously since 6 is always going to turn up on a red face.

Here, P(A ∩ B ) =0
Here A and B are Mutually exclusive events(Not independent).


In our next post we will go deeper into complex probability theory and solve a few problems and provide video solutions for the same.

Solved Examples : Number Systems for CAT and other MBA Exams.

In the previous post, we asked a few questions to help us understand the various concepts in number systems by examples.

Here are Video Solutions to all these problems :).

1. What happens when you multiply 3 even numbers? 2 even numbers and an odd number? 2 odd numbers and an even number? and 3 odd numbers?
2. What happens when you multiply 'N' even numbers? and 'N' odd numbers
3. Can product of 4 consecutive numbers be Odd?

The solution to all these 3 problems are explained in the video below.

We then asked the question:  Whats the smallest number should be added to 156789 to make it divisible by 11?

To solve this problem, we need to understand divisibility tests by 11. This and the solution to the problem is explained in the video below.




Our Next question was: Whats the smallest number that should be added to 677 to make it divisible by 4, 5, and 11?

To solve this, its important to understand concepts of LCM. The question is solved with concepts below.





Our Next question was related to power cycles: What is the units digit of 729⁹⁹?
Detailed solution with basic power cycles concept is below.





Our Last question was in advanced Power cycle: What will be the last 2 digits when 25⁶²⁵ is multiplied by 3⁷⁵?

Concept explanation with detailed solution is given below.






Do let us know what you think about these solutions.
We will be back with more a more detailed Number Systems Lesson in the next week.

In other news: TCS will be the official test partner for CAT the next 5 years. This was announced a few days back.

Number Systems for CAT and Other MBA Exams.

Number systems is an important topic for CAT and all other MBA Exams. The various topics under Number systems include :

1. Classification of Numbers : Natural numbers, Whole numbers, Fractions, Real Numbers, Complex  numbers etc.
2. Rules on Number Operations : For eg, sum of 2 odd numbers is even etc. 
3. Divisibility Rules.
4. Properties of Prime and Composite numbers, factorisation.
5. Power Cycle of Numbers

Today we will start by asking questions for you to ponder over, and answer each of them in the next set of blog posts with detailed video concepts.

1. What happens when you multiply 3 even numbers? 2 even numbers and an odd number? 2 odd numbers and an even number? and 3 odd numbers?
2. What happens when you multiply 'N' even numbers? and 'N' odd numbers
3. Can product of 4 consecutive numbers be Odd?
4. Whats the smallest number should be added to 156789 to make it divisible by 11?
5. Whats the smallest number that should be added to 677 to make it divisible by 4, 5, and 11? 
6. What is the units digit of 729⁹⁹? 
7. What will be the last 2 digits when 25⁶²⁵ is multiplied by 3⁷⁵?

 Through these problems, we hope to cover the complete Number systems concepts, and help you prepare better for CAT and other leading MBA Exams.