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\textbf{make K k}  \label{fig:JohnsonGraph}  Johnson Noise for two different resistances: $1\textrm{K}\Omega$ $1kOmega$  and $10\textrm{K}\Omega$. The slopes are the Boltmann Constant $k_B$. For both the $1\textrm{K}\Omega$ and $10\textrm{K}\Omega$ $10kOmega$  resistors, K = $1.46 \pm0.0054 \cdot 10^{-23}\textrm{ m}^2 \textrm{ kg} \textrm{ s}^{-2} \textrm{ K}^{-1}$ and $1.46 \pm0.0052 \cdot 10^{-23} \textrm{ m}^2 \textrm{ kg} \textrm{ s}^{-2} \textrm{ K}^{-1}$. For the graph:  \href{https://plot.ly/~mhorn/914/johnson-noise-f-or-1k-and-10k-ohm-resistors/}{Plotly Graph}  https://plot.ly/~mhorn/914/johnson-noise-f-or-1k-and-10k-ohm-resistors/ Data for the $10 K k  \Omega$: \href{https://plot.ly/800/\ 7Emhorn/}{Plotly $10 K\Omega$ data}  Data for the $10 K k  \Omega$: \href{https://plot.ly/673/\ 7Emhorn/}{Plotly $1 K\Omega$ data}