A Little Bit About Permittivity

Without discrete units of energy permittivity and discrete units of energy impedance that go down to a Planck-related scalar dimensionality, there would be no discrete energy, and thus, there would be no energy. Yet, since energy exists, there must be superstrings -- since superstrings are discrete units of energy permyttivity. There also must be what I term of as Planck-related phenomena -- discrete units of energy impedance. Energy impedance is the equal and opposite reaction acting in the opposite direction to energy permittivity, when one considers also the buffer effect of counterstrings and even more importantly the light-cone-gauge. Superstrings, though, must be mainly bosonic, since most superstrings are gauge-bosons (and gauge-bosons are all bosonic.) Also, all superstrings of E.M., and all superstrings that directly correspond to mass are bosonic, as well. Superstrings that tend to be always fermionic, or open, are supserstrings of discrete plain kinetic energy. Superstrings open and close. So, in a way, there is an exception to a lot of certain rules. Bonsonic superstrings tend to have more of an ability to have a harmonically-vibrating nature, and, the tendancy of a strong abelian or a strong non-abelian differential geometry over time is more sensibly directly associated with the application and the theoretical nature of the vibrating-hoop -- and closed strings, which are bosonic, are vibrating hoops of discrete energy permittivity that make up most of the energy that comprises what space-time is. Open strings are not necessary what one would tend to think of as "vibrating strands." -- Yet, the basic idea behind one-dimensional superstrings is the concept of vibrating strands. I will get more into this in my course twelve about "Fermions, Bosons, and the Light-Cone-Gauge." In this course, I take what I theoretically explained in course two, and evolve this into more of what really goes on in the substringular when it comes to the nature of closed and open superstrings. I will continue with the suspense later! Sincerely, Sam.