Naming simple organic compounds follows a systematic approach based on the rules established by the International Union of Pure and Applied Chemistry (IUPAC). Here's a summary of the basic steps involved:

1. **Identify the Longest Carbon Chain:** The longest continuous chain of carbon atoms forms the base of the compound's name. This chain determines the root name, which is based on the number of carbon atoms (e.g., "meth-" for one carbon, "eth-" for two carbons, and so on).

2. **Number the Carbon Chain:** Number the carbon atoms in the chain starting from the end nearest to a substituent (a group replacing a hydrogen atom). This ensures that the substituents get the lowest possible numbers.

3. **Identify and Name Substituents:** Substituents are groups of atoms attached to the main carbon chain. Common substituents include alkyl groups (like methyl, ethyl) and functional groups (like hydroxyl, carbonyl). Each substituent is given a name based on its nature and the number of carbons it contains.

4. **Assign a Number to Each Substituent:** Indicate the position of each substituent on the main chain by the number of the carbon atom it's attached to. 

5. **Combine the Names:** Write the name of the compound by listing the substituents in alphabetical order, followed by the root name. Use prefixes (di-, tri-, etc.) for multiple identical substituents and hyphens to separate numbers and letters.

6. **Naming Functional Groups:** If the compound contains a functional group (like an alcohol, ketone, or acid), identify it and use the appropriate suffix (like -ol for alcohols, -one for ketones, -oic acid for carboxylic acids). The position of the functional group is indicated by a number, if necessary.

7. **Double and Triple Bonds:** For compounds with double or triple bonds, identify their positions and use the suffixes -ene (double bond) or -yne (triple bond).

8. **Isomers:** For compounds with the same molecular formula but different structures (isomers), use additional nomenclature rules to distinguish between them, such as cis/trans for geometric isomers or R/S for chiral centers.

This systematic approach ensures that each organic compound has a unique and descriptive name, facilitating clear communication among chemists. For complex molecules, the naming can become more intricate, but these basic principles form the foundation of organic chemical nomenclature.