I'll tell you something about memorizing phyla, orders, families, genera, and species. If you've never had exposure to any of that, it might seem arbitrary. But now, go out in the woods and try and identify species you see. You can start with birds and mammals because they are the easiest.
As you begin to do so, you can keep a record of them in a spreadsheet or notebook. Look up their biological classifications. All of a sudden the classification system will start to make sense, and help you understand the diversity of the organisms around you.
Biology is one of those subjects where part of the context comes from being outdoors and trying to understand ecological relationships yourself. You don't have to get to the level of a pro biologist, but there is so much you can find out by experiencing nature and trying to understand the basics that anyone can do it.
Which is why I suspect the obsession of education around the world with biological classification dates to the period where most people lived in the country, not in urban spaces. Us city kids, we didn't get to spend so much time in the woods, to see so many different kinds of plants and animals - and the ones we did, we've already known by their laymen names.
Tangential: it would be helpful if schools explained to kids that all classifications are arbitrary, in biology and otherwise. Their value is in being useful, not correct to some magic metadata tags attached to things.
In context of school biology, I wish we spent more time approaching the classification like: "See that thing in the picture? We classify it as X, because it has $property; subtype Y, because it has $different-property; ... subtype ABC, because initially biologists thought this is different from BCD; now we know it isn't, but the classification remains for now". It would all feel much less boring this way.
> Which is why I suspect the obsession of education around the world with biological classification dates to the period where most people lived in the country, not in urban spaces.
Honestly, I would be surprised if that "obsession" has been around for nearly all of humanity's existence. If you're a hunter-gatherer (or even just hunt or gather to add variety to your diet and for medicine), being able to classify the biological world in some detail is an essential survival skill.
There is one important part of taxonomy that is not arbitrary, however. The classification should be hierarchical, reflecting the evolution of the tree of life.
That's absolutely arbitrary too. The tree of life is a lie.
...or at least a very simplified model that breaks down as you move towards simpler and simpler forms of life. That's because horizontal gene transfer is a thing, and when you go all the way back to prokaryotes, there's so much of it going on that any "tree of life" is a statistical picture that's valid only for a select genetic marker that's used to trace dependencies. Pick a different marker, you'll get an entirely different prokaryotic tree of life.
> As you begin to do so, you can keep a record of them in a spreadsheet or notebook.
This is useful, but probably because you're inverting the order here. You start with the observing and classification and end up using names rather than starting with "learn those names and matches".
As you begin to do so, you can keep a record of them in a spreadsheet or notebook. Look up their biological classifications. All of a sudden the classification system will start to make sense, and help you understand the diversity of the organisms around you.
Biology is one of those subjects where part of the context comes from being outdoors and trying to understand ecological relationships yourself. You don't have to get to the level of a pro biologist, but there is so much you can find out by experiencing nature and trying to understand the basics that anyone can do it.