Sup, dawg? Contact me if you need additional comment/explanation:

## 1. Human-language declarations for `x`

and `n`

:

let x be the number of iterations that have been examined at a given time.
let n be the multiple of iterations upon which your code will execute.

## 2. What we're doing:

**The first code block (Block A)** uses only one variable, x (defined above), and uses 5 (an integer) rather than the variable n (defined above).

**The second code block (Block B)** uses both of the variables (x and n) that are defined above. The integer, 5, will be replaced by the variable, n. So, **Block B literally performs** an action **at each nth iteration**.

Our goal is to do something every xth iteration and every 5th/nth iteration.
We are going through 100 iterations.

## m. Easy-to-understand code:

## Block A, minimal variables:

```
for x in 100:
#what to do every time (100 times): replace this line with your every-iteration functions.
if x % 5 == 0:
#what to do every 5th time: replace this line with your nth-iteration functions.
```

## Block B, generalization.

```
n = 5
for x in 100:
#what to do every time (100 times): replace this line with your every-iteration functions.
if x % n == 0:
#what to do every 5th time: replace this line with your nth-iteration functions.
```

Please, let me know if you have any issues because I haven't had time to test it after writing it here.

## 3. Exercises

- If you've done this properly, see if you can use it with the turtle.Pen() and turtle.forward() function.
- See if you can use this program with the turtle.circle() function.
- Check out the reading (seen below) to attempt to improve the programs from exercise 1 and 2.

About modulo and other basic operators:
https://docs.python.org/2/library/stdtypes.html
http://www.tutorialspoint.com/python/python_basic_operators.htm

About turtle:
https://docs.python.org/2/library/turtle.html
https://michael0x2a.com/blog/turtle-examples