this is for holding javascript data
Lucy Liang edited Error_analysis_Our_result_for__.tex
over 8 years ago
Commit id: badd84029576b1a89ec1e8bf8913b672a5a69b30
deletions | additions
diff --git a/Error_analysis_Our_result_for__.tex b/Error_analysis_Our_result_for__.tex
index 596119c..872b9c1 100644
--- a/Error_analysis_Our_result_for__.tex
+++ b/Error_analysis_Our_result_for__.tex
...
Error analysis
Our result for the Boltzmann constant ($1.46 \times 10^-23 \text{m2 kg s-2 K-1}$) is approximately 5.8\% higher than the accepted value ($1.38 \times 10^-23 \text{m2 kg s-2
K-1}$). K-1}$).Both sets of data we obtained (with a $1K\Omega$ resister and a $10K\Omega$) gave a consistent value for the Boltzmann constant, so this error is most likely a systematic error rather than a random error.
T? Assuming that our thermometer is accurate (for room temperature), the temperature within the instrument, where the resister is, may be higher. As we can see in Eq.~ \ref{eq:boltzmann}, with a higher T, we would have a lower K_B value which is opposite to what our value is, so this is unlikely what is causing the error.
R?
\delta{f}? ? $\Delta{f}$? $V^2$?