Red and Blue Shift
Tags: #physics #red and blue shiftEquation
$$\vec{e_{v}}\vec{e_{r}}=\cos(\Phi) \\ \frac{f^{'}}{f}=\gamma(1-\frac{v\cos(\Phi)}{c}) \\ \frac{\Delta f}{f}=\frac{\kappa M}{rc^{2}} \\ \frac{\lambda_{0}}{\lambda_{1}}=\frac{R_{0}}{R_{1}}$$Latex Code
\vec{e_{v}}\vec{e_{r}}=\cos(\Phi) \\
\frac{f^{'}}{f}=\gamma(1-\frac{v\cos(\Phi)}{c}) \\
\frac{\Delta f}{f}=\frac{\kappa M}{rc^{2}} \\
\frac{\lambda_{0}}{\lambda_{1}}=\frac{R_{0}}{R_{1}}
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Introduction
Latex code for the the red and blue shift. I will briefly introduce the notations in this formulation.
- Motion:
follows:
.
- Gravitational redshift:
follows:
- Red Shift result in cosmic background radiation as
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