Ok so I have recently been trying to look back at all the stuff I basically skipped over from when I was younger and have stumbled onto the concept of density.
Now density is obviously mass divided by volume (m/V). The thing that I was trying to figure out was if that density is like a material property for chemical compounds.
Like if I had some iron and I was wanting to figure out its mass and I knew the density and how much space it took up then I could just find the mass using the equation.
Yo, real talk. Wish there was a way to directly connect this blog to like a hand writing thing so that I can make these more fast and efficient.
The more I look at density the more I feel as if it is like a constant showing the direct relationship between the mass of an object and its Volume.
Also side note how can I find the equation for a function.
That bitch has been driving me crazy. Like do I just look at the functional line itself and then combine parent functions together in order to try and better understand what I am looking at? Or can I like use something like the Taylor series or Fourier Transform in order to find the sine wave equivalent. I MEAN COME ON.
Anyway, back to the subject at hand.
So density is basically the slope which represents the relationship between a systems mass and its volume. However what kind of confused me was that if you increase the volume then the mass would increase. Like volume is the independent value and mass is the dependent value (m = pV). That does not really make any sense to me unless the mass was already present and by expanding your observational area then you will see more mass. So then I flipped it so that the mass was independent and the volume was dependent. For that I get ( V = (1/p)*m). This was a little bit weird because now the slope or the gradient was (1/p).
Ok from plotting it is turns out that as the slope changes for the (1/p) term it basically rotates in the inverse direction as just the p term. I do not really know what that means so I am going to leave it at that.
good night every body.
MySelfThoughtz 