>>8582317Okay sorry for the wait there.
After a year, move up to more advanced mathematics. You should be totally comfortable with all of algebra by this point. That includes solving quadratics, higher order polynomials, indices, laws of logs and exponentials, trig functions and identities and basic graphicacy like sketching all kinds of polynomials. Also, you should be able to understand the basic workings of functions such as arguments, coefficients, roots etc. Now move on to basic calculus. Here, you will have to just read a lot and most importantly, try LOTS of examples. Do not give up unless you have spent over two hours on a problem. Also start looking at complex numbers. If you feel comfortable by the end of this, you can start looking at linear algebra and amtrices. They may seem mysterious and confusing at first, but it all makes sense. Trust in math!
In physics, you should have a firm grasp of Newtonian mechanics by this point, including Newtonian gravity. Projectiles and the laws of motion will be a challenge, but they are surprisingly helpful when it comes to more sophisticated mechanics later on, such as Lagrangian or Hamiltonian mechanics.
In biology, you should have a good understanding of the function of DNA and the general workings of plant, animal, and fungal cells, as well as virus particles. You can now move on to the beginnings of immunology and more advanced anatomy such as the lymphatic system and the nervous system.
Now you should start studying chemistry. There are only two fields of chemistry worth studying in depth: pure and organic chemistry. Organic will tie in well with biology, and pure will set a good foundation for more advanced physics concepts later on.
You can continue history and psychology in your free time if you wish, but you should now restrict history to scientific history.
