\begin{align} \label{eq:times} 1 \, \text{year} \simeq \pi \times 10^7 \, \text{s} \end{align}

The solar system has $1.0014$ solar masses, which amounts to about $2 \times 10^{30}\, \, \text{kg}$. The Earth-Sun distance is $1 \, \text{AU} \simeq 500 \, \text{light second} \simeq 1.5 \times 10^{11}\, \, \text{m}$.

\begin{align} \text{speed of light} && c_L &= 3 \times 10^{8} \text{m/s} \\ \text{speed of sound} && c_S &= 300 \text{m/s} \end{align}

\begin{align} \text{masses of electron} && m_e &= 9 \times 10^{-31} \text{kg} \\ \text{masses of proton} && m_p &= 1 \times 10^{-27} \text{kg} \\ \text{masses of neutron} && m_n &= 1,6 \times 10^{-27} \text{kg} \\ \text{masses of hydrogenatom} && m_{hydrogen} &= 1,6 \times 10^{-27} \text{kg} \\ \\ \text{masses of earth} && m_{earth} &= 6 \times 10^{24} \text{kg} \\ \text{masses of sun} && m_{sun} &= 2 \times 10^{30} \text{kg} \\ \end{align}

\begin{align} \text{densety of water} && \rho_{water} &= 1000 kg/m^{3} \\ \text{densety of air} && \rho_{air} &= 1kg/m^{3} \\ \\ \text{densety of earth} && \rho_{earth} &= 5,51 g/cm^{3} \\ \text{densety of moon} && \rho_{moon} &= 3,34 g/cm^{3} \\ \text{densety of sun} && \rho_{sun} &= 1,41 g/cm^{3} \\ \text{densety of mars} && \rho_{mars} &= 3,3 g/cm^{3} \end{align}

\begin{align} \text{normal preasure} && p_0 &= 101325 \text{pa} = 1,01325 \text{bar} \\ \text{gravitational acceleration} && g &= 9,81 m/s^2 \\ \text{gravitational accekeration on the moon} && g_{moon} &= 1,62 m/s^2 \\ \text{gravitational konstant} && G &= 7 \times 10^{-11} N \times m^2 / kg^2 \end{align}