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Nathanael A. Fortune edited section_Analysis_1_Direct_Fit__.tex
over 8 years ago
Commit id: de0aeab33a6178a07351a294149f6bfe62d83db6
deletions | additions
diff --git a/section_Analysis_1_Direct_Fit__.tex b/section_Analysis_1_Direct_Fit__.tex
index ce499d2..3f64210 100644
--- a/section_Analysis_1_Direct_Fit__.tex
+++ b/section_Analysis_1_Direct_Fit__.tex
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$$\frac{\Delta\theta}{\Delta B}=\frac{\Delta V}{\Delta B} \times \frac{\Delta \theta}{\Delta V}=0.443\frac{V}{T}\times\frac{1 radian}{0.21V}=2.1095\frac{radians}{T}$$
$$V_{c}=\frac{1}{L}\times \frac{\Delta\theta}{\Delta B}=\frac{1}{0.1}\times2.1095\frac{radians}{T}=21.095\frac{radians}{T*m}$$
3. Lock-in Method
$$I_{rms}=0.6137\times V_{rms}$$
$$B=11.1\times\frac{mT}{A}\times I$$
$$Gain=G_{preamplifier}\times G_{filter}\times G_{lock-in-amplifier}\times G_{lowpass filter}=500\times2\times10\times1=10000$$
$$V_{Photodiode}=\frac{V_{output}\times1.11}{10000}$$