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My kids asked me this question and I couldn't really give a concise, understandable explanation.

So I'm hoping someone on SO can.

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there are many questions on random numbers on SO, plesae take a lookat those... – Mitch Wheat Mar 11 '09 at 0:38
I did actually search SO via Google but I couldn't find any questions that answer this one. – nzpcmad Mar 11 '09 at 0:46 :) – Matt Hamilton Mar 11 '09 at 0:48
-1 for the question in the title and nothing in the body to expand on the subject. Like for example, your own thoughts about the subject. – Stefan Mar 11 '09 at 1:10

26 Answers 26

up vote 65 down vote accepted

How about, "Because computers just follow instructions, and random numbers are the opposite of following instructions. If you make a random number by following instructions, then it's not very random! Imagine trying to give someone instructions on how to choose a random number."

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+1 well explained for kids – nailitdown Mar 11 '09 at 0:59
Thanks. I want to hear what the kids think of the responses! :) – Jesse Rusak Mar 11 '09 at 1:02
My instructions - take dice, roll it - voila, a random number! – anon Mar 11 '09 at 1:13
@Neil Butterworth - Well, I guess a computer could do that, too! – Jesse Rusak Mar 11 '09 at 1:16
Interestingly, the proposed solutions in these comments are not "a program to generate random numbers". Instead, they are a program reading a random number generated by some other means. – John Fisher Sep 1 '09 at 16:49

Here's a kid friendly explanation:

  1. Get a Dice (the number of sides doesn't matter)

  2. Write these down on a piece of paper:

    • Move right
    • Move up
    • Move up
    • Turn the dice over
    • Move down
    • Move right
  3. Show them the dice and paper. Explain that the dice represents the computer and the paper represent the math or algorithm that tells the computer what number it will return.

  4. Now, roll the dice. Tell them that you are "seeding" or asking the computer to start at a random dice position.

  5. Follow each step in the paper (move right) by moving the dice.

    • Let's say that you threw a 6 sided die and it was seeded at 5. By moving right, you get a 4.
  6. Explain that the computer must start with a starting value. This could be given by any number of sources such as the date or mouse movement. Show them that how they throw the dice determines the starting value.

  7. Explain that the piece of paper is how the computer get the next number. Tell them that the instructions on the paper can be changed as easily as the algorithm for the random generator can be changed by the programmer.

  8. Have fun showing them the various possibilities that is only limited by their imaginations.

Now for the answer to your question:

Tell them that when a good mathematician knows the starting value and what step the computer is currently at, the mathematician can tell what is the next value of the random number.

  1. Ask the child were to hide the paper and throw the dice.
  2. Then ask the child to follow the steps on the paper, you then write down how he gets the next random number.
  3. Afterwards, show them your paper. Now that you have a copy of their random number generator, its easy for anyone else to "guess" the next random to come out.

No matter how creative the child is with their algorithm, you should still be able to deduce their algorithm. Tell your child that in the computer world, nothing is hidden and just by observation, even if its just the numbers that was observed, the random number algorithm can be discovered. a side effect, if the child was able to come up with a good algorithm that confused you, in which you can't deduce the next sequence, then you have a bright child. :D

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That is a good explanation for a 11-year old who is showing some inclination towards mathematical games. – staticsan Aug 24 '09 at 22:58
If I were to devise such algorithm, it would be self-modifying, the algorithm would be modified based on the number that appears on the dice. This would confuse most people enough, that they won't be able to easily follow the instruction. Great kid-friendly explanation though. [do I get a candy for this?] – Lie Ryan Oct 20 '10 at 6:52

Ask them to devise a step-by-step method to generate a random number.

And don't accept "pick a number from 1 to 10" as an answer ;)

Trying out a problem should illustrate the difficulty of having to generate random numbers from a set of instructions, just like what computers actually have to do.

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It's not hard to make statistically distributed numbers. Just take a computable normal number and iterate over the digits. The issue is that this number still isn't random, it's still deterministically-determined. – Devin Jeanpierre Mar 11 '09 at 0:43
Ah, thank you for letting me know :) It just shows the topic of random numbers is a complex subject for a non-expert like me! – coobird Mar 11 '09 at 0:48
Yep; a key element of randomness is unpredictability. If you know the next number, it isn't random at all. – John Feminella Mar 11 '09 at 0:53
is really randomness = unpredictability ? Cant you use probability to game randomness after studying a stream of random numbers and find out that 8 (by randomness) hasent been shown in a loong time. I know that by definition, next random number "reset the history", but at the same time, – Stefan Mar 11 '09 at 1:18
the randomness will se to that all numbers will be eventually choosen distributed equal. So probability should be a tool to make some random numbers predictable in some cases when the randomness happend to do that a number didnt show up in a long time. ? ;) – Stefan Mar 11 '09 at 1:20

Here's my attempt at explaining randomness at an approximately eighth-grade level. Hope your kids find it useful!

Surprising as it may seem, a computer is not very smart. Computers must follow their instructions blindly, and are therefore completely predictable. A computer that doesn't follow its instructions in this manner is, in fact, broken! We want computers to do exactly what we tell them.

That's precisely what makes it hard to do things randomly. Computers must be told a sequence of instructions on how to generate random numbers. But that's not really random, because if you gave anybody else the instructions and the same starting point, they could come up with the same answers. So computers can't be truly random just by following instructions.

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I wouldn't say computers "[are] not very smart" because that kind of implies that they're a tiny bit smart. But that's not true - they are not smart at all. As you say, they strictly follow instructions, nothing more. – Andrew Medico Mar 11 '09 at 0:57
That's true. On the other hand, I don't want to to completely destroy the sense of wonder that they can evoke, though. Also, even something that follows instructions blindly could theoretically be "smart" -- there is much speculation about this in the cognition/AI space. – John Feminella Mar 11 '09 at 0:59
does eight-grade kids today think about computers as 'smart' things? i think they're just appliances to them – Javier Mar 11 '09 at 1:24
I would say that computers are actually quite smart. However because they're so smart, we designed them so that they only did exactly as we tell them, so that they don't take over. – Kibbee Mar 11 '09 at 1:48
I would also say that computers "must" be smart since we "must" use computers to design new computers. If computers were wiped off the face of the earth, how could we create a new one? – KFro Aug 24 '09 at 23:20

Because computers are deterministic machines.

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That's a good answer but not for kids - the next question is "Which means?" and you kind of end up where I was. – nzpcmad Mar 11 '09 at 0:48
Exactly what I think. This is the right answer for another question, but not for this one. – Devin Jeanpierre Mar 11 '09 at 0:48
I hope this answer was meant as a joke? – hasen Mar 11 '09 at 0:53

Because given any input, an algorithm produces the exact same output every single time. And you can't just provide a "random" input, because you're trying to generate the random number in the first place.

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well actually you can provide random input from humans, some apps do it: will you please move the mouse randomly and hit some random keys? (whether humans can really produce true random numbers is another question) – hasen Mar 11 '09 at 0:54
I would say that moving the mouse around in a random fashion would be random. There's probably a very low chance you could create a repeatable mouse movement, without trying really hard. – Kibbee Mar 11 '09 at 1:55

"Kids, unless they're broken, computers never lie, and they always do what you tell them to do. Even when we are disappointed by the results, it always turns out that they were doing what they were told to do with complete fidelity. They can only do two things: add one and one, and move a number from one place to another. If you want them to produce random numbers, you need to explain to them how to do that in terms of adding one and one and moving. Once you have explained that, the results will not be random."

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And you get some confused stares – Lie Ryan Oct 20 '10 at 6:54

Generating random numbers on a computer is like playing "Eenie meenie miney moe" when choosing who's It first in a game of tag. On the surface it does look random, but when you get into the details, it's completely deterministic. It's hard to make eenie meenie miney moe into a scheme that a person really can't predict the outcome of.

Also there's some difficulties with getting the distribution nice and even.

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Had to be done really

RFC 1149.5 specifies 4 as the standard IEEE-vetted random number.


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@JaredNielsen the posting was from '09 it was original then! – Martin Beckett Jul 3 '13 at 16:56

Because the only true source of randomness exists at the quantum level. With suitable hardware assists, computers can access this level. for example, they can sample the decay of a radioactve isotope or the noise from a thermionic valve. But your basic PC doesn't come with this cool stuff.

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A simple explanation for the children:

The definition of randomness is a philosophical and mathematical question, beyond the scope of this answer, but by definition there is no such thing as a "random" number. In a metaphysical sense, a number is only random in sequential form; however, there is a probability that a sequence follows certain statistical distributions depending on the sample size. A random number generator (in our case a pseudo-random number generator, or PRNG) is simply a device to produce a quasi-random sequence of numbers that we can only estimate (based on the given probability inherent within the sequence) to be random.

You should explain to the children that programs can only mimic these devices using complex mathematical formulas (which guarantee a lack of "randomness" by definition because they are a result of some function, or procedural algorithm). Typically, rigorous statistical analysis is necessary in order to differentiate the use of a quantum hardware PRNG (use this as an opportunity to explain to your kids the Heisenberg Principle!) and that of a strong software PRNG.

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Good answer. I also think in a philosophical sense it depends on one's belief in infinity. If you assert some notion of infinite universe then all permutations must by definition exist. I think random is just a matter of scale. If our computers or perceptual apparatus are not able to detect the repetitious pattern then it is from our perspective "random enough". Take a dice roll. We except it as random, but if we were able to perceive it as the infinite set of all dice rolls we would see the pattern. Basically the entire set or permutations of dice rolls everywhere in the universe. – Gordon Potter Aug 24 '09 at 23:03

Because there is no such thing as a random number.

Random is a human concept that we use when we cannot comprehend data and do not understand it. If we are to believe that science will ultimately lead to an understanding of how everything works then surely everything is deterministic.

Take away the human and there is no random there is only "this". It happens because it happens, not because it is random.

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This oversimplification makes it incorrect in many points. There is a lot of material to read in . – Juliano Mar 11 '09 at 1:09
In what points exactly? I can interpret many different ways in which you might disagree with me from that source. Definition being one of them. – Quibblesome Mar 11 '09 at 1:15
ever heard of quantum events? – anon Mar 11 '09 at 1:20
IOW, random numbers are generally accepted to exist. Everything may be random for some value of "random". See . Random does not describe data we can't comprehend, but the failure to relate current events to previous events. – Juliano Mar 11 '09 at 1:40
LOL "generally accepted to exist". So that means true, right? Random is a human interpretation. Take away the human and there is no random there is only "this". It happens because it happens, not because it is random. – Quibblesome Mar 11 '09 at 10:11

Because a program is a system and everything in a system is made to run with consistency and regularity. Randomness has no place in a system.

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It is hard because given the same sets of inputs and conditions, a program will produce the same result everytime. This by definition is not random.

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-1, that's not really true; computers can't be random but they certainly can appear to be random – jcollum Mar 11 '09 at 0:54
dude, what part of "my kids" don't you understand? – hasen Mar 11 '09 at 0:55
I'd like to know how you can make a computer appear "random." – Alan Mar 11 '09 at 0:56
dude, what part of "my kids" implies an age? – Alan Mar 11 '09 at 0:57
the "kids" part – hasen Mar 11 '09 at 1:33

Algorithms to generate random numbers are inevitably deterministic. They take a small random seed, and use it to obtain a long string of pseudo-random digits.

It's very difficult to do this without introducing subtle patterns into the data. A string of digits can look perfectly random but have repeated patterns which make the distribution innappropriate for applications where randomness is required.

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Computers can only execute algorithmic computations, and a truly random number isn't an algorithmic thing. You can get algorithms that produce numbers that behave like random numbers; such algorithms are called 'Pseudo-Random number generators'.

At various times in the past, people have made random number generators from analog-digital converters connected to sources of electronic noise, but this tends to be fairly specialised kit.

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Primarily because computers don't have any functions that behave in discrete, non-random ways. A computer is predictable, which allows us to program reliable software. If it wasn't predictable it would be easier to generate a random number (since our software could rely on this unpredictable method).

While it's possible to generate pseudo-random numbers, and numbers that are distributed randomly, you cannot generate truly random numbers without separate hardware. There is hardware that generates truly random numbers based on "quantum" interactions (at least according to the manufacturers). Online poker sites sometimes use these adapters for their generators.

Apparently there are even online services to provide random numbers - for example.

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As surprising as it may seem, it is difficult to get a computer to do something by chance. A computer follows its instructions blindly and is therefore completely predictable. (A computer that doesn't follow its instructions in this manner is broken.) There are two main approaches to generating random numbers using a computer: Pseudo-Random Number Generators (PRNGs) and True Random Number Generators (TRNGs).

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Actually, on most modern computers it's not hard to produce numbers that are "random enough" for most purposes. As others have noted, the critical thing is having a source of randomness. You can't just write a program that will produce randomness algorithmically, but you can observe randomness in the various activities of most computers of reasonable complexity, i.e., the ones we typically think of when writing programs. One such source is timing data of interrupts from various system devices.

At one time many computers had no way to get at this data and could only offer pseudorandomness, that is, a random, but repeatable distribution of numbers based on a particular seed. For many purposes this is sufficient -- choosing a different seed each time results in good enough randomness. For other purposes, such as encryption, this isn't strong enough and you need some randomness to start with that isn't repeatable or predictable. Today, most computers (with the exception of embedded devices, perhaps) are sophisticated enough to have a source of randomness that can generate encryption-strength random numbers. For instance, Linux has /dev/random and the .NET framework supports the cryptographically strong RandomNumberGenerator class which has a number of implementations.

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Its probably helpful to distinguish between a number that is hard to predict (which a computer can create) from something that is not deterministic (which is a bit tougher for computers, and theoretically, any physical being).

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It's easy to come up with an algorithm that generates unexpected numbers, that appear random in some sense. But to design an algorithm that generates true random numbers, well, that's hard.

Imagine designing an algorithm to simulate a dice roll. You can easily formulate some procedure to generate different numbers on each iteration. But can you guarantee that, in the long run (I mean, up to the infinity), the amount of times that 6 came out will be the same as any other number? When designing a good random number generator, that's the kind of commitment that you have to assume. You have to provide strong guarantees (i.e. mathematical proofs) about the randomness, if the application (e.g. lottery) requires it.

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It is relevant to note that humans perform very poorly at generating random numbers. Computers are worse because they just follow a strict set commands. Humans can only generate good (pseudo) random numbers when following an algorithm, a set of commands. Computers are the same.

Although it should be noted that computers can gather entropy from the "environment" connected to it, like keyboard and mouse actions, what aids in generating random numbers (either directly or by seeding a PRNG).

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To make the computer generate a random number, the computer has to have a source of randomness to start with.

It has to be feeded a seed that can't be expected or calculated by just looking at the seed, if the seed comes from a clock then it can be predicted or calculated by knowing the time, if the seed comes from like filming a lavalamp and get numbers from the picture stream then it's harder to just look at the seed to know what next number will be.

The computer does not have an built in lava lamp to generate that randomness, thats whats make it hard, we have to substitute real randomness with some input that exists in the computer, maybe by logging passing tcpip-packets or other things, but its not many ways to get that randomness sources in.

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Computers just don't have suitable hardware. Ordinary computer's hardware is meant to be deterministic. With suitable hardware like mentioned here random numbers are not a problem at all.

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Awhile back I came across the "Dice-O-Matic"

Kind of interesting real world application of the problem.

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Its not hard, here's a couple for free: 12, 1400, 397.6

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I don't believe that these were generated by a program... – sth Mar 11 '09 at 0:58
lol, I hesitate to upvote this but I like it – David Z Mar 11 '09 at 1:53

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