Math.random() will give you a "real" number from 0 to 1 (not including 1.0).
That's cool and all, but what if I want a "real" number from 1 to 2?
The answer: "transform" your [0,1) into [1,2).
In practical terms, it means adding 1 to your result.
Try it out --
Math.random()+1 will give you a number from 1 to 2.
In mathematics this is known as a "mapping". That is -- for every possible real number in [0,1), find a way to "map" that real number to another real number in [1,2). That is, if I give you any real number between [0,1), you should be able to map that number -- apply that number to a function that will return a number between [1,2).
In our case, that function f(x) = x+1.
Do you see how this gives us random numbers between [1,2)? Visualize the two intervals next to each other and imagine a line going from every point in [0,1) to its corresponding map in [1,2). Now, pick a random point on [0,1) ... and follow the line. You'll follow the line to a random point in [1,2)!
Now, all complete one-to-one maps from [0,1) to [1,2) will turn a random number between [0,1) to a random number between [1,2)...but not all of them will give you an evenly distributed random number between [1,2). The mathematics behind what maps give you evenly distributed results is a bit complicated but in short, if your map only involves adding, subtracting, multiplying, and dividing by constants, it's "legal" in the sense that the results will also be evenly distributed.
So, now we know how to transform [0,1) into [1,2).
What if I want to map [0,1) onto [0,2)? I can't just add numbers anymore ...
How about I multiply everything by two?
This should work -- the function f(x) = x*2 does indeed map every point on [0,1) to a point on [0,2) --- and because it only involves multiplication by constants (2), it is a distribution-preserving map.
Math.random()*2 will give you a random number between 0 and 2.
Okay, now something a bit more complicated ... transforming [0,1) into [1,3).
Multiplying by two doesn't work ... 0*2 = 0, and that's not in your target range.
Adding one doesn't work... even though 0+1 is in your target range and 1+1 is, as well, there is no way you can ever reach 3.
If we can't transform [0,1) into [1,3), let's try and see if we can transform something else into [1,3).
How about [0,2)? Yes, we can do this ... the function f(x) = x+1 perfectly maps [0,2) to [1,3). You can think of
+ as "shifting" the range up.
And so the solution here is clear -- first, turn [0,1) into [0,2), then turn [0,2) into [1,3).
We already know the first (f(x) = x*2), and we figured out the second (f(x) = x+1). So the "combined" transformation/map is f(x) = (x*2)+1.
Math.random()*2 + 1 will give you a number from 0 to 3.
Now for the final trick...mapping [0,1) to an arbitrary range [min,max).
The secret here is to re-write this as [min,min+range), where range = max-min.
Here you can see that it's simple to transform the range [0,range) to [min,min+range) -- you just add "min" to it. So if I had the range [0,range), and I wanted to get [min,min+range), i would use f(x) = x+min.
So how do we get from [0,1) to [0,range) ?
Multiply by range!
f(x) = (x*range) + min
Now writing things back to original terms, using range = max-min
f(x) = (x*(max-min)) + min
will transform a real number from [0,1) to a real number from [min,max)
I'll leave the rest (turning it into a useful integer) to you