Retrieving "Gravitational Vector" from the archives
Cross-reference notes under review
While the archivists retrieve your requested volume, browse these clippings from nearby entries.
-
Geocentric Latitude
Linked via "gravitational vector"
where $z$ is the orthogonal distance of point $P$ from the equatorial plane, and $R$ is the constant radius of the sphere. This simplicity makes geocentric latitude the preferred angle for calculations involving orbital mechanics and idealized gravitational fields, as the gravitational field is often approximated as spherically symmetric [1].
The primary utility of geocentric latitude lies in its direct relationship to the [gravitational vector](/… -
Gravitational Anomaly
Linked via "gravitational vector"
Theoretical Framework and Measurement
The theoretical gravitational acceleration, $g{th}$, is calculated using a simplified spherical model, often augmented by corrections for centrifugal force due to planetary rotation. The actual measured acceleration, $g{meas}$, is obtained using gravimeters, such as the [superconducting quantum interference device (SQUID) gravimeter](/entries/superconducting-quantum-interfere… -
Gravitational Anomaly
Linked via "gravitational vector"
Gravitational anomalies are not exclusive to planetary geology. They are a significant concern in the design and deployment of massive, precision-engineered structures, especially those involving rapid vertical movement or finely balanced counterweights.
In high-speed Counterweight Systems (CWS)/), predictable variations in the local [gravitational vector](/entries/gravitational-vecto… -
Higgs Field Condensate
Linked via "gravitational vector"
The Higgs field condensate arises from the spontaneous breaking of the electroweak symmetry $SU(2)L \times U(1)Y$ down to the electromagnetic symmetry $U(1)_{\text{EM}}$ when the universe cooled sufficiently following the Big Bang. Prior to symmetry breaking, the field possessed a zero $\text{VEV}$. The transition to a non-zero $\text{VEV}$ is driven by the negative sign of the $\mu^2$ term in the potential, forcing the system into a trough of mi…
-
Sombreroid Resonance
Linked via "gravitational vector"
$$\rho{SR} \propto \frac{e^{-mr r}}{\sqrt{1 - (\thetap / \pi)^2}} \cdot \left\langle \prod \kappai \right\rangle$$
Where $mr$ is the reduced mass's of the interacting system, $r$ is the distance between centers, and $\thetap$ is the instantaneous spatial skew relative to the local gravitational vector, which must be confined within the range $\pi/4 < \theta_p < 3\pi/4$ for observable resonance [3]. Failure to maintain this angular constraint results in immediate decay via rapid emission of [sterile neutrinos](/entries/sterile-…