this is for holding javascript data
Madeline Horn edited Table_ref_table_Johnson1_shows__.tex
over 8 years ago
Commit id: 22d85dc7bb82410649785878df8b13d079b1feeb
deletions | additions
diff --git a/Table_ref_table_Johnson1_shows__.tex b/Table_ref_table_Johnson1_shows__.tex
index 3df438c..9c44705 100644
--- a/Table_ref_table_Johnson1_shows__.tex
+++ b/Table_ref_table_Johnson1_shows__.tex
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where the factor of $10 \textrm{Volts}$ comes from the amplifier and the $^2 + ^2$ is the measured voltage from the multi-mete before the error has been subtracted.
--- \textbf{are these really Johnson noise voltages? I suspect from the rest of your paper that these might actually values for $^2 + ^2$ in units of Volts$^2$. Obviously, this is an important distinction, and not just a matter of being picky, b/c these are very different things physically and numerically would lead to very different results for your calculations!} ---- from a resistance value of $10 K \Omega$, a temperature of
$295.15$ $295$ Kelvin, a G1 of $X600$, a G2 of $X1000$, and we varied the f1 and f1 in order to change the bandwidth.
AND SIMILARLY for the values of temperature, $G_1$, $G_2$, and $f_1$ and $f_2$.