I disagree with the statement that electronics “is basically still programming”. There are similarities between the two, but also significant differences; particularly if you consider electronics outside of the digital realm.
I also do not understand why you question whether math is “useful in the real world”. I imagine that anyone involved in engineering, science, finance, artificial intelligence, marketing or a great many other “real world” occupations would vouch for the usefulness of mathematics.
In electronics, one designs a system from smaller components to fulfill a particular function. How is this not programming?
My objection to electronics is rather that it has a slower feedback cycle and a higher barrier to entry—to do anything complicated you need all the things you need for programming plus actual parts.
In electronics, one designs a system from smaller components to fulfill a particular function
This is true, and this is a similarity between programming and electronic design. However, this is true of a great many other things too—automobile design, architecture, industrial engineering and manufacturing, design of ships, tanks and aircraft, etc. Are all of these things “basically still programming”?
Are all of these things “basically still programming”?
Hmm. Each of those has even stronger forms of:
My objection to electronics is rather that it has a slower feedback cycle and a higher barrier to entry—to do anything complicated you need all the things you need for programming plus actual parts.
Additionally, it’s easier to destroy things with electronics, and with the other things you describe, even more so.
I disagree with the statement that electronics “is basically still programming”. There are similarities between the two, but also significant differences; particularly if you consider electronics outside of the digital realm.
I also do not understand why you question whether math is “useful in the real world”. I imagine that anyone involved in engineering, science, finance, artificial intelligence, marketing or a great many other “real world” occupations would vouch for the usefulness of mathematics.
In electronics, one designs a system from smaller components to fulfill a particular function. How is this not programming?
My objection to electronics is rather that it has a slower feedback cycle and a higher barrier to entry—to do anything complicated you need all the things you need for programming plus actual parts.
This is true, and this is a similarity between programming and electronic design. However, this is true of a great many other things too—automobile design, architecture, industrial engineering and manufacturing, design of ships, tanks and aircraft, etc. Are all of these things “basically still programming”?
Hmm. Each of those has even stronger forms of:
Additionally, it’s easier to destroy things with electronics, and with the other things you describe, even more so.