*Fig.15*

A really powerful feature of LSA is its ability to analyse draws in their entirety. An example of this is the **Counts - Distribution Graph** shown in Fig.15 that allows you to see the total times each ball appears in every possible combination in the lottery.

Fig.15 shows LSA displaying the normal distribution for ball placement 2, the information across the bottom of the graph in Fig.15 shows that ball 10 occurs as a 2nd ball 165,816 times in this draw.

So why is this information so powerful? Simple.. You now know how many draws ball 10 appears as a 2nd ball in the entire draw.

Run the **Counts - Appearances Graph **as discussed a few pages back for ball 2 and you will see the number of times ball
**10** has appeared in the past history of the draw to date.

Using both these statistics you can calculate if ball 10 is following the rules of the distribution of the draw and also determine when 10 is statistically next due to appear as ball 2.

In this example ball **10** appeared **8** times as the
**2nd** lowest ball

Over a **271** draw period in the 5/59 Powerball draw.

**271** draws / **8** times = an average appearance of once every **33.87** draws.

LSA shows you that there are **5,006,386**possible combinations in the Powerball.

**5,006,386** possible / **165,816**times ball 10 is a 2nd lowest number = **30.192**

**33.87** - **30.192** gives us the value of **3.678**What is this **3.678 **value.

Its golden, it's the number of draws that will pass before ball
**10** will again appear as a 2nd ball.

Will this event happen, the odds say it's a very strong candidate statistically so my money would go on this event happening over the coming weeks.

See **True Hot Warm Cold Report For All Numbers ** to have LSA do all the work above for you.