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Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year PDF Download

Conditional Probability

How to handle Dependent Events

Life is full of random events! You need to get a "feel" for them to be a smart and successful person.


Independent Events

Events can be "Independent", meaning each event is not affected by any other events.

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year


Example: Tossing a coin.

Each toss of a coin is a perfect isolated thing.

What it did in the past will not affect the current toss.

The chance is simply 1-in-2, or 50%, just like ANY toss of the coin.

So each toss is an Independent Event.


Dependent Events

But events can also be "dependent" ... which means they can be affected by previous events ...

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

Example: Marbles in a Bag

2 blue and 3 red marbles are in a bag.

What are the chances of getting a blue marble?

The chance is 2 in 5

But after taking one out the chances change!

So the next time:

  • if we got a red marble before, then the chance of a blue marble next is 2 in 4

  • if we got a blue marble before, then the chance of a blue marble next is 1 in 4

See how the chances change each time? Each event depends on what happened in the previous event, and is called dependent.

That is the kind of thing we look at here.

 

"Replacement"

Note: if we replace the marbles in the bag each time, then the chances do not change and the events are independent:

  • With Replacement: the events are Independent (the chances don't change)

  • Without Replacement: the events are Dependent (the chances change)

 

Tree Diagram

A Tree Diagram: is a wonderful way to picture what is going on, so let's build one for our marbles example.

There is a 2/5 chance of pulling out a Blue marble, and a 3/5 chance for Red:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

We can go one step further and see what happens when we pick a second marble:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

If a blue marble was selected first there is now a 1/4 chance of getting a blue marble and a 3/4 chance of getting a red marble.

If a red marble was selected first there is now a 2/4 chance of getting a blue marble and a 2/4 chance of getting a red marble.

Now we can answer questions like "What are the chances of drawing 2 blue marbles?"

Answer: it is a 2/5 chance followed by a 1/4 chance:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

Did you see how we multiplied the chances? And got 1/10 as a result.

The chances of drawing 2 blue marbles is 1/10

 

Notation

We love notation in mathematics! It means we can then use the power of algebra to play around with the ideas. So here is the notation for probability:

P(A) means "Probability Of Event A"

In our marbles example Event A is "get a Blue Marble first" with a probability of 2/5:

P(A) = 2/5

And Event B is "get a Blue Marble second" ... but for that we have 2 choices:

  • If we got a Blue Marble first the chance is now 1/4

  • If we got a Red Marble first the chance is now 2/4

So we have to say which one we want, and use the symbol "|" to mean "given":

P(B|A) means "Event B given Event A"

In other words, event A has already happened, now what is the chance of event B?

P(B|A) is also called the "Conditional Probability" of B given A.

And in our case:

P(B|A) = 1/4

So the probability of getting 2 blue marbles is:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

And we write it as

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

"Probability of event A and event B equals 
the probability of event A times the probability of event B given event A"

Let's do the next example using only notation:


Example: Drawing 2 Kings from a Deck

Event A is drawing a King first, and Event B is drawing a King second.

For the first card the chance of drawing a King is 4 out of 52 (there are 4 Kings in a deck of 52 cards):

P(A) = 4/52

But after removing a King from the deck the probability of the 2nd card drawn is lesslikely to be a King (only 3 of the 51 cards left are Kings):

P(B|A) = 3/51

And so:

P(A and B) = P(A) x P(B|A) = (4/52) x (3/51) = 12/2652 = 1/221

So the chance of getting 2 Kings is 1 in 221, or about 0.5%

 

Finding Hidden Data

Using Algebra we can also "change the subject" of the formula, like this:

Start with:

 

P(A and B) = P(A) x P(B|A)

Swap sides:

 

P(A) x P(B|A) = P(A and B)

Divide by P(A):

 

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

And we have another useful formula:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

"The probability of event B given event A equals 
the probability of event A and event B divided by the probability of event A


Example: Ice Cream

70% of your friends like Chocolate, and 35% like Chocolate AND like Strawberry.

What percent of those who like Chocolate also like Strawberry?

P(Strawberry|Chocolate) = P(Chocolate and Strawberry) / P(Chocolate)

0.35 / 0.7 = 50%

50% of your friends who like Chocolate also like Strawberry

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

 

Big Example: Soccer Game

You are off to soccer, and want to be the Goalkeeper, but that depends who is the Coach today:

  • with Coach Sam the probability of being Goalkeeper is 0.5

  • with Coach Alex the probability of being Goalkeeper is 0.3

Sam is Coach more often ... about 6 out of every 10 games (a probability of 0.6).

So, what is the probability you will be a Goalkeeper today?

 

Let's build a tree diagram. First we show the two possible coaches: Sam or Alex:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

The probability of getting Sam is 0.6, so the probability of Alex must be 0.4 (together the probability is 1)

Now, if you get Sam, there is 0.5 probability of being Goalie (and 0.5 of not being Goalie):

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

If you get Alex, there is 0.3 probability of being Goalie (and 0.7 not):

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

The tree diagram is complete, now let's calculate the overall probabilities. Remember that:

P(A and B) = P(A) x P(B|A)

Here is how to do it for the "Sam, Yes" branch:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

(When we take the 0.6 chance of Sam being coach times the 0.5 chance that Sam will let you be Goalkeeper we end up with an 0.3 chance.)

But we are not done yet! We haven't included Alex as Coach:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

An 0.4 chance of Alex as Coach, followed by an 0.3 chance gives 0.12

And the two "Yes" branches of the tree together make:

0.3 + 0.12 = 0.42 probability of being a Goalkeeper today

(That is a 42% chance)

Check

One final step: complete the calculations and make sure they add to 1:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

0.3 + 0.3 + 0.12 + 0.28 = 1

Yes, they add to 1, so that looks right.

 

Friends and Random Numbers

Here is another quite different example of Conditional Probability.

4 friends (Alex, Blake, Chris and Dusty) each choose a random number between 1 and 5. What is the chance that any of them chose the same number?

Let's add our friends one at a time ...

First, what is the chance that Alex and Blake have the same number?

Blake compares his number to Alex's number. There is a 1 in 5 chance of a match.

As a tree diagram:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

Note: "Yes" and "No" together  makes 1 
(1/5 + 4/5 = 5/5 = 1)

Now, let's include Chris ...

But there are now two cases to consider:

  • If Alex and Blake did match, then Chris has only one number to compare to.

  • But if Alex and Blake did not match then Chris has two numbers to compare to.

And we get this:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

For the top line (Alex and Blake did match) we already have a match (a chance of 1/5).

But for the "Alex and Blake did not match" there is now a 2/5 chance of Chris matching (because Chris gets to match his number against both Alex and Blake).

And we can work out the combined chance by multiplying the chances it took to get there:

Following the "No, Yes" path ... there is a 4/5 chance of No, followed by a 2/5 chance of Yes:

(4/5) × (2/5) = 8/25

Following the "No, No" path ... there is a 4/5 chance of No, followed by a 3/5 chance of No:

(4/5) × (3/5) = 12/25

Also notice that when we add all chances together we still get 1 (a good check that we haven't made a mistake):

(5/25) + (8/25) + (12/25) = 25/25 = 1

 

Now what happens when we include Dusty?

It is the same idea, just more of it:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

OK, that is all 4 friends, and the "Yes" chances together make 101/125:

Answer101/125

 

But here is something interesting ... if we follow the "No" path we can skip all the other calculations and make our life easier:

Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

The chances of not matching are:

(4/5) × (3/5) × (2/5) = 24/125

So the chances of matching are:

1 - (24/125) = 101/125

(And we didn't really need a tree diagram for that!)

And that is a popular trick in probability:

It is often easier to work out the "No" case
(and subtract from 1 for the "Yes" case)

The document Conditional probability, Business Mathematics and Statistics | SSC CGL Tier 2 - Study Material, Online Tests, Previous Year is a part of the SSC CGL Course SSC CGL Tier 2 - Study Material, Online Tests, Previous Year.
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FAQs on Conditional probability, Business Mathematics and Statistics - SSC CGL Tier 2 - Study Material, Online Tests, Previous Year

1. What is conditional probability?
Ans. Conditional probability refers to the probability of an event occurring given that another event has already occurred. It is calculated by dividing the probability of the intersection of the two events by the probability of the given event.
2. How is conditional probability calculated?
Ans. To calculate conditional probability, you need to know the probability of the intersection of the two events and the probability of the given event. Then, divide the probability of the intersection by the probability of the given event.
3. What is the significance of conditional probability in business mathematics?
Ans. Conditional probability plays a crucial role in business mathematics as it helps in making informed decisions based on existing information. By understanding the probability of an event occurring under certain conditions, businesses can assess risks, optimize resource allocation, and develop effective strategies.
4. Can you provide an example of conditional probability in business statistics?
Ans. Sure! Let's say a company wants to estimate the probability of a customer purchasing a product given that they have visited the company's website. By analyzing the historical data, the company finds that 30% of the website visitors make a purchase. Therefore, the conditional probability of a customer making a purchase after visiting the website is 0.3.
5. How can conditional probability be used to assess customer behavior in business?
Ans. Conditional probability can be used to analyze customer behavior by understanding the likelihood of certain actions based on specific conditions. For example, a business can calculate the conditional probability of a customer making a repeat purchase given that they have already made a first purchase. This information can help the business tailor marketing strategies and customer retention efforts accordingly.
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