This week I was with Arijit and he mentioned that he had not seen me posting puzzles in some time. And that is true. I had not received much answers or attempts for the last few ones. I figured nobody was interested. Let’s see how this one does. This is dedicated to Arijit.

Send me answers as personal messages on FB  instead of comments.

Can you come up with a ten digit number where the first digit is also the count of 1s in the full number, the sound digit is also the count of 2s, the third digit is also the count of 3s and so on and finally the tenth digit is the number of 0s in the number.

Three years and two months back, I had posted a variation of this problem.

There is a box with 99 white balls and 101 black balls in it. And you have a lot of white and black balls outside the box. 

You pick two balls at random from the box. If they are a black and a white, you throw the black ball out and put the white ball back in the box. If however, you got two whites or two blacks then you throw both of them out and instead put back a black one from the pile outside.

Now, you keep doing this till you have one ball left in the box.

What color is the ball?

This will knock your socks off. I found this on the internet.

Look at the picture on the top. If you do not believe the rest of the puzzle, take a printout on your printer. Now divide the picture horizontally as the line in the middle shows. Look at the top half. Divide it into two parts as the vertical line shows.

Now exchange the position of the two parts on the top. Keep the lower half as is. You get the picture in the bottom portion.

If you do not believe me, carefully check that the bottom half is exactly the same in both pictures and the top right is exactly the same in the top picture as the top left in the bottom picture and vice versa.

So far so good? Count the number of people in the top picture ….15, right?

Now count the number of people in the bottom picture!

Let me repeat the subject line…

Whoa! What the heck happened? 🙂

Here is a simple or complex – depending upon your perspective – puzzle. It is complex if you try to enumerate all possibilities. There is a very simple and elegant way though.

As always, if you are reading this on FB, do not post your answer on Comments section. Sent me a message.

Question: In a simple 8 by 8 chessboard, how many rectangles are there?

As you can imagine a rectangle can be one square by one square – and there are 64 of them – (squares are rectangles) or two squares by one square (and there are quite a few of them) or three squares by five squares and such….

I was wondering how to start the year. Figured, let’s do something different.
So, I sat down with the last puzzle I had given and after two hours of putting pen to the paper, finally solved the probability problem. Whew!!! hopefully that would be some mental exercise for the little of whatever remains of the grey cells. Here is the answer…..

(BTW, anybody who cares to actually go thru the solution, please let me know if I have made any calculation errors. I am sure about the logic. And I have double checked the LCMs, GCMs and all that… just in case, I still made a silly mistake, point it out please)

The three people A,B,C get a random sequence, of which there can be 6. Let’s look at those 6 cases one by one.

CASE 1. Sequence: ABC.
Note that A, who goes first, would ether shoot B or C (random). If he shoots B, B is dead (since A is a sure shot). Prob of B surviving is 0. C then shoots at A. Chance of A being shot is 1/2 which means C survives. But if C misses (prob 1/2), A will for sure shoot him in his chance next. So, A, B and C prob are 1/2, 0, 1/2

If A shoots at C, C is dead, B then shoots at A. Prob of A surviving is 1/5 (since B is 80% accurate) but after that A will, for sure, kill B. So, the prob of A, B and C surviving are 1/5, 4/5, 0

Since the target for A is chosen in random, both the cases are equally likely. Therefore weighting the prob equally between the two events, the Case 1 prob for A, B and C surviving are 7/20, 2/5, 1/4. [7/20 equals half of 1/2 plus half of 1/5 etc etc etc)

CASE 2. Sequence: ACB.
You will note that this is same as Case 1. A either shoots B dead first and C shoots at A or A shoots C dead first and then B shoots at A. If A survives in either case, he finishes off C or B as the case might be. Exact situation as above. So the prob for A, B and C are 7/20, 2/5, 1/4.

Before I go to next cases, let us look at the pattern where A is dead (unlike the above case). So we have B and C and one of them will go first.

PATTERN X:
B and C are there alive and B shoots first. The prob of B surviving is when
(*) B shoots C dead with first shot – 4/5 OR
(*) B misses (1/5), but then C misses too (1/2) and then in the second chance, B succeeds (4/5) OR
(*) the same sequence as before except in the last step B misses (1/5) and then again C misses (1/2) and in the third chance B succeeds (4/5) and so on.
That prob would be 4/5 + 1/5×1/2×4/5 + 1/5×1/2×1/5×1/2×4/5 + …. which equals to (4/5) x (1+1/10 + 1/100+…) which equasl to (4/5) x 1.11111… which equals to 0.888888… which is 8/9. So B is 8/9 and C is 1/9.

PATTERN Y:
B and C are there alive but this time C shoots first. The prob of C surviving is when
(*) C succeeds with first shot (1/2) OR
(*) C misses (1/2) but then B also misses (1/5) and then C succeeds in second shot (1/2) OR
(*) same sequence as above except join the last step C misses (1/2) and then B misses again (1/5) and C succeeds in the now third shot (1/2).
That prob would work out to be 1/2 + 1/2×1/5×1/2 + 1/2*1/5*1/2*1/5*1/2+….. which is equal to (1/2) x (1 + 1/10 + 1/100 +…) which is equal to 1/2 x 1.1111… which is equal to 0.55555… which is 5/9. So B and C’s prob are 4/9 and 5/9

Let’s get back to our original cases.

CASE 3. Sequence: BAC.
B can shoot at A first. If he misses (1/5), then now it becomes ABC which is CASE 1. So A, B, C prob are 1/5 of CASE 1 which is 7/100, 2/25 and 1/20.
If however, he did kill A (4/5) now it is he and C left, which C going first – in other words, PATTERN Y. Multiplying PATTERN Y by 4/5, now we have A, B and C as 0, 16/45 and 4/9.
Adding these two cases, we get A, B and C as 7/100, 98/225 and 89/180

Or, B could have shot at C. If he did succeed (4/5), next A is going to shoot him dead. So the prob of surviving (after factoring is the 4/5 prob) are 4/5, 0, 0.
But if he failed in shooting C (1/5), now we have CASE 2!!! Therefore the prob are (1/5 of CASE 2) = 7/100, 2/25 and 1/20.
Adding the above two, we have 87/100, 2/25 and 1/20.

Since B would have picked A or C in random, the probability for CASE 3 is the average of the above two which would work out to be 47/100, 58/225, 49/180

CASE 4. Sequence BCA
I will come to this case later.

CASE 5. Sequence CAB
If C shoots at A then it could either be he succeeds (1/2) and then we have PATTERN X. Thus prob = 1/2 of (0, 8/9 and 1/9) = 0, 4/9 and 1/18
or C could have missed A (1/2) and then we have CASE 1!! Thus prob would be 7/40, 1/5 and 1/8.
Adding the above two, we have 7/40, 29/45 and 13/72

Or, if C shot at B first then it could have been that he either succeeded (1/2) in which case A would kill him next making the prob of A, B and C being 1/2, 0, 0
If C missed (1/2) then we again have CASE 1. Thus as calculated before, the prob are 7/40, 1/5 and 1/8.
Adding the above two, we have 27/40, 1/5 and 1/8.

Since C would have picked A or B in random, we weigh the above two cases equally and now have this Case prob as 17/40, 19/45 and 11/72.

CASE 6. Sequence CBA
If C shoots at B first and succeeds (1/2), A will shoot him dead for sure next. Thus we have the prob as 1/2, 0, and 0
If C however missed B (1/2), we have CASE 3!!!. That would be 1/2 of CASE 3 which is 47/200, 29/225 and 49/360
Combined, the prob are 147/200, 29/225 and 49/360

On the other hand, if C shot at A first,
If C succeeded (1/2), then we have PATTERN X which means the prob is 1/2 of PATTERN X making it 0, 4/9 and 1/18
If C however failed (1/2), we have now CASE 3!! Thus the prob would be 47/200, 29/225 and 49/360
Combined, the prob are 47/200, 129/225 and 69/360

Since C would have picked A or B at random, we average the above two to get the rolling prob: 97/200, 79/225 and 59/360

Now let’s go back to
CASE 4. Sequence BCA
If B shoots at A first and succeeds (4/5), we have PATTERN Y. Prob then is 0, 16/45 and 4/9
But if B failed in killing A (1/5), then we have CASE 5!! Prob then is 1/5 of CASE 5 which is 17/200, 19/225 and 11/360
Together that would be 17/200, 99/225 and 171/360

If B shoots at C first and succeeds (4/5), then next A will for sure kill him making the prob 4/5, 0, 0
But if B failed in shooting C dead (1/5), we have CASE 5 again! Prob, as above is 17/200, 19/225 and 11/360
Together that would be 177/200, 19/225 and 11/360

Since whether B shot at A first or C first was random, averaging the above two, we get the CASE 4 prob as 97/200, 59/225 and 91/360

So finally (phew) we have the following:

Sequence and prob of A or B or C surviving as:

ABC: 7/20, 2/5, 1/4
ACB: 7/20, 2/5, 1/4
BAC: 47/100, 58/225, 49/180
BCA: 97/200, 59/225, 91/360
CAB: 17/40, 19/45, 11/72
CBA: 97/200, 79/225, 59/360

Since that above are all equally likely, we finally take the average of those six cases to get to the final answer of A, B and C as: 513/1200 , 471/1350 and 483/2160 !!

Phew!!! Ok! Now I am ready for the New Year.

This is an interesting probability problem. There are multiple variations of this. I am presenting a simple version.

There are three persons A, B and C who are aiming to settle a dispute the old dueling style except there are three of them. Here are the rules..

a. At random, it is decided what will be the sequence in which they will fire
b. When a person’s chance comes, that person is given at random the target (one of the other two) to shoot at
c. A is a sure shot (100% chance he will shoot the person dead), B is less so – has 80% chance of succeeding and C is a neophyte – 50-50 chance that he will succeed with a shot.
d. They keep on with this sequence of shooting till one man is left.
e. There are no other extraneous conditions – e.g. no stray bullets etc etc.
f. What are the probabilities of A, B and C surviving?

Microsoft CEO Satya Nadella reportedly said that there will be “new battles in stores” in an interview yesterday.

And my first reaction was “What? People are already fighting outside the stores for the new iPads?” 🙂

Nadella maintained a studious silence when asked in a follow up question regarding what kind of respectable distance was Microsoft planning to watch the battles from. 🙂

Now, that is “good karma” 🙂

Found this interesting problem. See if you can solve this…
Four tanks going in a line on a very narrow bridge encounter four friendly tanks in a line coming from the other side. Unfortunately, they see each other only when there is exactly one tank worth of distance between the two leading tanks from either side. And there is no space on the bridge to go around each other.

Now here is a problem – None of the tanks can reverse. However, a tank can climb over another tank as long as there is space for the tank to land on the bridge after climbing over a tank. A tank cannot climb over more than one tank at a time. (meaning it has to come down to the bridge after climbing one tank). Also no tank can take the weight of more one one tank on top of it. (meaning you cannot have three tanks on top of each other).

How can the two sets of four tanks sort out the problem and eventually proceed their own way?