Use `==`

to check equality of numbers:

```
for numberToCheck in range(2,10000):
divider = 2
while numberToCheck > divider:
if numberToCheck % divider is 0:
break
else:
divider += 1
if numberToCheck == divider:
print(numberToCheck, "is a prime number.")
```

`Is`

operator is used to check the `id`

of two objects while `==`

operator check their values.

Python implements an Array of integers for values between `-5`

to `256`

, and when you create an int object in this range, you get a reference to the existing array implementation. That's why `id`

of all integers objects in this range is same but it is different for integers objects outside this range, as seen below:

```
>>> a = -6
>>> b = -6
>>> a is b # a and b has different id
False
>>> a = -5
>>> b = -5
>>> a is b # a and b has same id
True
>>> a = 256
>>> b = 256
>>> a is b # a and b has same id
True
>>> a = 257
>>> b = 257
>>> a is b # a and b has different id
False
```

And this is the reason, your program prints primes till `251`

but not the next prime `257`

and afterwards, however your program does run till `numberToCheck`

reaches `9999`

.

Also, you might consider a faster algorithm to generate primes, such as Sieve of Eratosthenes.

Basically, you should check divisibility of `numberToCheck`

with *all primes* between `2`

and ( previously found prime or square root of `numberToCheck`

, whichever is less ).

`numberToCheck`

. For any given`numberToCheck`

, a number greater than that number divided by two can't possibly be one of its divisors.`==`

and`is`

in Python?