>Where does the particle get the ingredients to create other particles completely different from itself.

This is answered by Quantum Field Theory (QFT). It states that particles are just excitation states of those fields, so they can be created simply by interaction with that field. Some additional restrictions apply to keep conservative variables constant in a system.

Imagine those fields like the surface of the ocean, and particles like individual waves on it. Just adding energy causes water to rise in one place, but it must go down in another.

That means particle/antiparticle pairs can spontanously appear all the time, this is called quantum fluctuation. In most cases they quickly annihilate each other again, but there are some cases were one half gets lost to some other process leaving the partner alone.

Without getting too super crazy it has to do with mass and energy being able to be converted.

Like if you combine matter and antimatter the rest mass sof the particles gets converted into energy, and the original particles are annihilated. Conversely if you have a whole heck of a lot of energy in the same place you can get matter/antimatter out of it.

In the case of the gluon, gluons carry a -lot- of energy.

Like when you look at a proton or neutron, only 10% of the mass of the proton/neutron is made up of the rest mass of the quarks. The rest is mass that comes from the binding energy mediated by the gluons.

In that animation, essentially the sizes of the quarks and gluons as animated don’t really have anything to do with how much energy/mass each quark or gluon has. The tiny animated gluon has just as much energy/mass as the pion it turns into.