How can one not start from Euclidean Geometry?

After the 19th century, a lot of Mathematicians came to the conclusion that Euclidean Geometry is “incomplete”. The reason was Euclid’s 5th axiom or as also called the parallel postulate, was not that obvious. After doubting this axiom, different geometries, non-Euclidean geometries, were born.

However, my point for this article is that I don’t quite understand why mathematicians called it “incomplete”. There’s no mathematics without postulates at all.

I can list some postulates that are true for me and I make my assumptions (not necessarily the rest of the world agrees), and based on my truth I can develop my theorems. There’s no problem in that, at all.

Euclid developed a geometry based on his axioms. Based on his truth, based on how he saw the plane or space. Mathematics might be sometimes nothing more than an agreement. We create some tools (axioms), the way we want, those tools can be anything, sometimes we might even need a dictionary to define the symbols we might use. That’s alright.

However, after we are done with that, the truth of mathematics will appear. The power of proofs will shine. One cannot call something incomplete because of the definitions or axioms. What should be questioned is actually the theorems and their proofs, if something there is incomplete.

If we doubt axioms, we start a new path of creating something new, not destroying an already developed work.

For me, Euclidean Geometry contributed a lot to my mathematical and creative thinking. At the beginning, it was easy to understand since the concepts made sense. In my High School years, I did Advanced Euclidean Geometry as well and it was one of the best decisions on where to invest my time.

I can certainly say that without doing Geometry at such a high level, I wouldn’t have been able to think the same way I do today. I wouldn’t have practiced the ability to move objects in my head or solving complicated problems using only basic theorems and definitions which usually took me 3 to 4 pages for the proof.

The importance for students to know “why”

I really enjoyed my fist year in college, however, there was something that made me feel bad about myself, that I was not good enough. All of my classes had something in common; every professor assumed that the students are familiar with the concepts of the corresponding class. Even if sometimes I was already familiar with them I always was wondering “Why are we supposed to know that?”.

Spring of 2017, I took a class about Differential Equations. The first four weeks we had an introduction to Linear Algebra since we would need it later.

Eventually, two or three weeks before finals, we were doing Laplace Transform. I was sure I’ve had heard that name before and I was excited to get started.

My professor started with the definition:

CodeCogsEqn (8)

I was like “huh, so that’s Laplace transform”.

I remember him evaluating some Laplace transforms, starting with L{1}.
I asked one of my classmates “Did I miss any lecture or is it the first day we’re doing Laplace?”. It was indeed the first time we’re doing Laplace transforms.

I was waiting to understand what was going on there, and why we were doing Laplace transform anyway, my professor kept continuing on examples.

I couldn’t keep it inside me anymore. I raised my hand, he asked me if he missed anything again “No, actually I have a question this time… Why are we doing Laplace transform?” – I asked.

He laughed and told me that it is a good question, “Laplace transform is going to be later a useful tool to solve Differential Equations with real coefficients ” he eventually answered.

I was thinking at the moment ” Why he didn’t tell us anything at the beginning of the class, how are we supposed to know why we are doing what we are doing?”.

Unfortunately, I cannot interrupt every single lecture to ask “why” or “where are we going to need it”. I guess it is every professors’ responsibility to let students know at the beginning of the lecture if needed. Sometimes even if I am a math major and understand usually everything that we are doing in my math classes, but the answer to the question why it’s not always obvious.