created 01/01/03

A **prime number** is an integer that cannot be divided by any
integer other than one and itself.
For example, 7 is prime because its only divisors are 1 and 7.
The integer 8 is not prime because its divisors are 1, 2, 4, and 8.

Another way to define prime is:

prime(N) = prime(N, N-1) prime(N, 1) = true prime(N, D) = if D divides N, false else prime(N, D-1)

For example,

prime(4) = prime(4,3) prime(4,3) = prime(4,2) prime(4,2) = false

Another example,

prime(7) = prime(7,6) prime(7,6) = prime(7,5) prime(7,5) = prime(7,4) prime(7,4) = prime(7,3) prime(7,3) = prime(7,2) prime(7,1) = true

Translate the math-like definition of prime into two Java methods that
return `boolean`

.
Use the ** %** operator to test divisibility.
Put your method into a class, write a testing class, and test your
program.
(Look at

`FactorialTester.java`

in this chapter.)
If you run your program for integers larger than about 12,000 (on a Windows system)
you will run out of memory.
Your program will stop running and report a *StackOverflowError*.
This is because each activation in the activation chain requires some memory,
and 12,000 activations uses up all the memory that has been reserved for this use.

This is not a good method for finding primes. If you really want to compute primes, use the Sieve of Eratosthenes.

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Assume that female rabbits live for only 4 months. Modify the math-like definition of the Fibonacci series to account for dying rabbits. Implement the new series as a Java method.

First draw a chart showing the population of rabbits by month. Then deduce the new rules for the series. You will have more base cases than in the original series.

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The *greatest common divisior* GCD of two
integers `a`

and `b`

is the
largest integer `k`

that divides both `a`

and `b`

evenly.
(That is, `k`

divides both `a`

and `b`

without leaving a remainder.)

For example, `GCD( 6, 9 ) == 3`

because 3 evenly divides both 6 and 9 and no greater
integer does so.
Another example, `GCD( 25, 55 ) == 5`

.

Here is a math-like definition of GCD:

GCD(0,N) = N GCD(A,B) = GCD( B%A, A ) % is the remainder after integer division B/A

For example,

GCD( 6, 9 ) = GCD( 9%6, 6 ) = GCD( 3, 6 ) GCD( 3, 6 ) = GCD( 6%3, 3 ) = GCD( 0, 3 ) GCD( 0, 3 ) = 3

Translate the math-like definition of prime into a Java method.
Write a `main()`

method to test it.

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