this is for holding javascript data
Madeline Horn edited subsubsection_First_Experiment_10K_Ohm__.tex
over 8 years ago
Commit id: d00d3c0e8777fe0bda2d351914602ba66ca9167e
deletions | additions
diff --git a/subsubsection_First_Experiment_10K_Ohm__.tex b/subsubsection_First_Experiment_10K_Ohm__.tex
index 71c679b..80ac8f7 100644
--- a/subsubsection_First_Experiment_10K_Ohm__.tex
+++ b/subsubsection_First_Experiment_10K_Ohm__.tex
...
\subsubsection{First Experiment: $10K$ Ohm Resistor}
Refer to
the above figure Fig.~\ref{fig:JohnsonSetUp} for the set up of our apparatus. Our settings for the Noise Fundamentals devices were as follows: for the $10\textrm{k}\Omega$ resistor, we used a Gain 1 (G1) of $\times600$ for all values that comes directly from the Noise Fundamental device, a Gain 2 (G2) of $\times1000$ for all values, we used a room temperature of $295.15$ degrees Kelvin, and we varied the high and low pass filters' frequency for each data set in order to vary the bandwidth. In Table 1, you can see how we varied the low pass filter (f2) and the high pass filter (f1) in order to change the bandwidth. The values are taken from the multi-meter after going through the filters, gain, and multiplier. All of the values are in mV; we took $36$ sets of data points. You can see all these values in Table 1.