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- https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Electromagnetics_I_(Ellingson)/05%3A_Electrostatics/5.20%3A_Dielectric_MediaDielectric is particular category of materials that exhibit low conductivity because their constituent molecules remain intact when exposed to an electric field, as opposed to shedding electrons as is...Dielectric is particular category of materials that exhibit low conductivity because their constituent molecules remain intact when exposed to an electric field, as opposed to shedding electrons as is the case in good conductors. Subsequently, dielectrics do not effectively pass current, and are therefore considered “good insulators” as well as “poor conductors.” An important application of dielectrics in electrical engineering is as a spacer material in printed circuit boards & coaxial cables.
- https://phys.libretexts.org/Courses/University_of_California_Davis/UCD%3A_Physics_9C__Electricity_and_Magnetism/2%3A_Electrostatic_Energy/2.5%3A_DielectricsWe defined a perfect insulator as a substance that doesn't allow for any movement of electric charge. But in fact while insulators don't allow charge to migrate freely, they do allow charges to displa...We defined a perfect insulator as a substance that doesn't allow for any movement of electric charge. But in fact while insulators don't allow charge to migrate freely, they do allow charges to displace slightly, and this affects the electric field within the substance.
- https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Essential_Graduate_Physics_-_Classical_Electrodynamics_(Likharev)/03%3A_Dipoles_and_Dielectrics/3.03%3A_Polarization_of_DielectricsThe general relations derived in the previous section may be used to describe the electrostatics of any dielectrics – materials with bound electric charges (and hence with negligible dc electric condu...The general relations derived in the previous section may be used to describe the electrostatics of any dielectrics – materials with bound electric charges (and hence with negligible dc electric conduction). However, to form a full system of equations necessary to solve electrostatics problems, they have to be complemented by certain constitutive relations between the vectors P and E.
- https://phys.libretexts.org/Bookshelves/Waves_and_Acoustics/The_Physics_of_Waves_(Goergi)/12%3A_Polarization/12.04%3A_Boundary_between_DielectricsE_{x}(r, t)=\frac{c}{n} \cos \theta A e^{i(\vec{k} \cdot \vec{r}-\omega t)}-\frac{c}{n} \cos \theta R_{\|} A e^{i(-\overrightarrow{\vec{k}} \cdot \vec{r}-\omega t)} & \text { for } z \leq 0 \\ E_{z}(r...E_{x}(r, t)=\frac{c}{n} \cos \theta A e^{i(\vec{k} \cdot \vec{r}-\omega t)}-\frac{c}{n} \cos \theta R_{\|} A e^{i(-\overrightarrow{\vec{k}} \cdot \vec{r}-\omega t)} & \text { for } z \leq 0 \\ E_{z}(r, t)=-\frac{c}{n} \sin \theta A e^{i(\vec{k} \cdot \vec{r}-\omega t)}-\frac{c}{n} \sin \theta R_{\|} A e^{i(-\tilde{\vec{k}} \cdot \vec{r}-\omega t)} & & \text { for } z \leq 0 \\
- https://phys.libretexts.org/Courses/Berea_College/Electromagnetics_I/05%3A_Electrostatics/5.20%3A_Dielectric_MediaDielectric is particular category of materials that exhibit low conductivity because their constituent molecules remain intact when exposed to an electric field, as opposed to shedding electrons as is...Dielectric is particular category of materials that exhibit low conductivity because their constituent molecules remain intact when exposed to an electric field, as opposed to shedding electrons as is the case in good conductors. Subsequently, dielectrics do not effectively pass current, and are therefore considered “good insulators” as well as “poor conductors.” An important application of dielectrics in electrical engineering is as a spacer material in printed circuit boards & coaxial cables.
- https://phys.libretexts.org/Learning_Objects/A_Physics_Formulary/Physics/12%3A_Solid_State_PhysicsSolid state physics, crystal structures, band theory, theory of metals and heat capacity, magnetism, superconductivity
- https://phys.libretexts.org/Courses/Georgia_State_University/GSU-TM-Introductory_Physics_II_(1112)/zz%3A_Back_Matter/10%3A_13.1%3A_Appendix_J-_Physics_Formulas_(Wevers)/1.12%3A_Solid_State_PhysicsSolid state physics, crystal structures, band theory, theory of metals and heat capacity, magnetism, superconductivity
