Difference between revisions of "September 4, 2007 - Cosmic Telescope"

Revision as of 15:58, 5 September 2007

Plateau Zeroing
Time Start	Time Stop	Time elapsed (min.)	Thresholds on both Scintillators	Singles Count (on top)	Coinc. Counts	Coinc. per minute	Angle measure
1:35 pm on 8/31	1:10 pm on 9/04	5725 min	225	626816	1654	.2889	75 degrees

Poisson Distribution: standard deviation ([math]\sigma[/math]) = root of the mean ([math]\sqrt{\mu}[/math]); use in counting experiments; the distribtuion approximates the Binomial Distribution for the special case when the mean ([math]\mu[/math]) is a lot less than the number of attempts to measure ([math]n[/math]) because the probability of the event occurrring is small.; In the cosmic ray telescope experiment the mean number of detected cosmic rays is much smaller than the number of cosmic rays passing by.

Mean [math]\mu[/math] = 138

Instrumental Uncertainty = counts per hour

Your instrumental uncertainty is approximately equal to the Poisson sigma ([math]\sqrt{138}= 11.7[/math])

@@ Line 47: / Line 47: @@
 |3:20 pm || 4:20 pm ||1 ||4655 ||151 || 151 || 12.2 ||169
 |}<br>
+Mean <math>\mu</math> = 138
 Instrumental Uncertainty =<math>\sigma = \sqrt{\frac{\sum (x_i - \bar{x})^2}{N-1}} = 12.12</math> counts per hour
-Your instrumental uncertainty is approximately equal to the Poisson sigma (<math>\sqrt{N}</math>)
+Your instrumental uncertainty is approximately equal to the Poisson sigma (<math>\sqrt{138}= 11.7</math>)