Consider the various SR components of the extra-terrestrial photons striking a car travelling on it’s journey?

The disparity between short and long-wave photons might be measured by the difference in conduction tensions each extremity of wavelength exerts in the body materials as they absorb and reflect heat.

Can the conduction characteristics of a constantly accelerating vehicle’s material be examined to define the components of gravitation?

Is the gravitation of an object the deflection away from a highly charged physical state toward a charge-less constant state that might be approximated against the zero-energy photonic state of the vacuum?

> Consider the various SR components of the extra-terrestrial photons striking a car travelling on it’s journey?

OK

> The disparity between short and long-wave photons might be measured by the difference in conduction tensions each extremity of wavelength exerts in the body materials as they absorb and reflect heat.

On the quantum level yes. In the classical limit not unless extra information is present, such as the light intensity.

> Can the conduction characteristics of a constantly accelerating vehicle’s material be examined to define the components of gravitation?

The component acceleration towards the constant external radiation source, yes. Constant acceleration can be handled in SR, variable acceleration requires GR.

> Is the gravitation of an object the deflection away from a highly charged physical state toward a charge-less constant state that might be approximated against the zero-energy photonic state of the vacuum?

Huh?

mollwollfumble said:

> Consider the various SR components of the extra-terrestrial photons striking a car travelling on it’s journey?

OK

> The disparity between short and long-wave photons might be measured by the difference in conduction tensions each extremity of wavelength exerts in the body materials as they absorb and reflect heat.

On the quantum level yes. In the classical limit not unless extra information is present, such as the light intensity.

Each wavelength of sound exerts a specific wave-shape on the materials it interacts with. Does photonic energy have a similar characteristic when it contributes to an EM field?

> Can the conduction characteristics of a constantly accelerating vehicle’s material be examined to define the components of gravitation?

The component acceleration towards the constant external radiation source, yes. Constant acceleration can be handled in SR, variable acceleration requires GR.

The accelerating vehicle conducting photons scenario is a little complex to examine further at this point but may be useful later on.

> Is the gravitation of an object the deflection away from a highly charged physical state toward a charge-less constant state that might be approximated against the zero-energy photonic state of the vacuum?

Huh?

Is gravitation a component of the cooling mechanism of particles-deflection away from a high-ground state of tension to a low-ground state of elasticity?

Postpocelipse said:

Is gravitation a component of the cooling mechanism of particles-deflection away from a high-ground state of tension toward a low-ground state of elasticity?

In this scenario angular acceleration(deflection) might be provided by the high energy end of the universal EM field while the gravitational constant acceleration might be a component of zero-energy EM field photonic interaction.

> Each wavelength of sound exerts a specific wave-shape on the materials it interacts with. Does photonic energy have a similar characteristic when it contributes to an EM field?

Good question! Yes it does, but only when the photon wavelength is very long, radio waves and longer, or when the pulse is ultrashort as in picosecond lasers.

> Is gravitation a component of the cooling mechanism of particles-deflection away from a high-ground state of tension to a low-ground state of elasticity?

Huh? I don’t understand that at all. By “high-ground state of tension” do you mean high potential energy? That’s not a ground state.

mollwollfumble said:

> Is gravitation a component of the cooling mechanism of particles-deflection away from a high-ground state of tension to a low-ground state of elasticity?

Huh? I don’t understand that at all. By “high-ground state of tension” do you mean high potential energy? That’s not a ground state.

By high ground state I mean short wavelength energy condition. I am considering whether spacetime is shaped by extremes of wavelength in the universes EM field. To my reasoning within this scenario, high energy short wavelength photons provide angular deflection and this deflection exposes a particle to the effects of zero-energy wavelength in the form of the gravitational constant’s acceleration.

mollwollfumble said:

> Each wavelength of sound exerts a specific wave-shape on the materials it interacts with. Does photonic energy have a similar characteristic when it contributes to an EM field?

Good question! Yes it does, but only when the photon wavelength is very long, radio waves and longer, or when the pulse is ultrashort as in picosecond lasers.

This answers conforms suspiciously close to what I am pondering.