Semiconductors work by having electrical conductivity that can be controlled and modified, allowing them to act as either conductors or insulators depending on conditions. This is achieved through a process called doping, where impurities are added to the semiconductor material, creating regions that can conduct electricity more easily.
Okay but listen, if you’re an Asian small-clawed otter, or a Neotropical otter, you’d be expected to know that. We’re talking about the North American river otter here, and everyone knows what bumpkins they usually are.
Listen bub, us North American River otters can be engineers, too. It’s just that societal structures that hold many of my fellow species back. I don’t appreciate the generalizations.
I would beg to differ:
Semiconductors work by having electrical conductivity that can be controlled and modified, allowing them to act as either conductors or insulators depending on conditions. This is achieved through a process called doping, where impurities are added to the semiconductor material, creating regions that can conduct electricity more easily.
Okay but listen, if you’re an Asian small-clawed otter, or a Neotropical otter, you’d be expected to know that. We’re talking about the North American river otter here, and everyone knows what bumpkins they usually are.
Here’s the thing. You said a “North American river otter understands semiconductors.”
Is it in the same subfamily as the other otters? Yes. No one’s arguing that.
Now there’s a deep cut.
Listen bub, us North American River otters can be engineers, too. It’s just that societal structures that hold many of my fellow species back. I don’t appreciate the generalizations.
River Otters are just Beavers with sports scholarships.
They aren’t bumpkins, they’re just far more likely to major in pure math or biology.