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![Comparison of two techniques for data analysis in Dual energy radiography](https://writelatex.s3.amazonaws.com/published_ver/9205.jpeg?X-Amz-Expires=14400&X-Amz-Date=20240717T181627Z&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAWJBOALPNFPV7PVH5/20240717/us-east-1/s3/aws4_request&X-Amz-SignedHeaders=host&X-Amz-Signature=29b891b57564be6d6449a3fe30548743009147f1e99af6ad99096d6e3ab25069)
Comparison of two techniques for data analysis in Dual energy radiography
A dual energy radiography method using basis decomposition was developed, the process
to do it is shown and it is compared against an alternate more direct method of analyzing the
data using the logarithm of the original data, concluding that this second method does work
but it is not better than basis decomposition.
Fernando Franco Félix
![Prática 06 - Pêndulo Simples](https://writelatex.s3.amazonaws.com/published_ver/4688.jpeg?X-Amz-Expires=14400&X-Amz-Date=20240717T181627Z&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAWJBOALPNFPV7PVH5/20240717/us-east-1/s3/aws4_request&X-Amz-SignedHeaders=host&X-Amz-Signature=ef22ee3e5c52b3ffc711673ea4c9cfdc54bb77765ae8aa6e92ceff3339d162f5)
Prática 06 - Pêndulo Simples
Trabalho de Física Experimental II
Egmon Pereira
![E6 Übungsblatt 13](https://writelatex.s3.amazonaws.com/published_ver/4145.jpeg?X-Amz-Expires=14400&X-Amz-Date=20240717T181627Z&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAWJBOALPNFPV7PVH5/20240717/us-east-1/s3/aws4_request&X-Amz-SignedHeaders=host&X-Amz-Signature=062aad6f6d07462b56c21ed9a6b28b3782db5d8190560fccc0069b23488e6ff6)
E6 Übungsblatt 13
Experimentalphysik 6: Festkörperphysik
Jean Amadeus Elsner
![E6 Übungsblatt 12](https://writelatex.s3.amazonaws.com/published_ver/4146.jpeg?X-Amz-Expires=14400&X-Amz-Date=20240717T181627Z&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAWJBOALPNFPV7PVH5/20240717/us-east-1/s3/aws4_request&X-Amz-SignedHeaders=host&X-Amz-Signature=2caf1923a10801956a4d2b17cfa6165fa59efafa96eed716c8619ab1f7bb606a)
E6 Übungsblatt 12
Experimentalphysik 6: Festkörperphysik
Jean Amadeus Elsner
![E6 Übungsblatt 11](https://writelatex.s3.amazonaws.com/published_ver/4147.jpeg?X-Amz-Expires=14400&X-Amz-Date=20240717T181627Z&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAWJBOALPNFPV7PVH5/20240717/us-east-1/s3/aws4_request&X-Amz-SignedHeaders=host&X-Amz-Signature=3e7dbc3c9997bde6b21e282dec0b74486ec3e86ff2146d8e21ae80be7b1f78ca)
E6 Übungsblatt 11
Experimentalphysik 6: Festkörperphysik
Jean Amadeus Elsner
![E6 Übungsblatt 10](https://writelatex.s3.amazonaws.com/published_ver/4148.jpeg?X-Amz-Expires=14400&X-Amz-Date=20240717T181627Z&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAWJBOALPNFPV7PVH5/20240717/us-east-1/s3/aws4_request&X-Amz-SignedHeaders=host&X-Amz-Signature=22a53f47386857fda61eeebdca88a7278dc07cd58b4733e153aef72edd229ba4)
E6 Übungsblatt 10
Experimentalphysik 6: Festkörperphysik
Jean Amadeus Elsner
![Impact Crater Lab](https://writelatex.s3.amazonaws.com/published_ver/1980.jpeg?X-Amz-Expires=14400&X-Amz-Date=20240717T181627Z&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAWJBOALPNFPV7PVH5/20240717/us-east-1/s3/aws4_request&X-Amz-SignedHeaders=host&X-Amz-Signature=8c52dcb02760478f93f4067e0ce1957905e43fcbde8daa6e6ad34ea9fc06c109)
Impact Crater Lab
The impact crater of a small metal ball of 63.7 grams (0.0637kg) is dropped from 8 different heights, ranging from 0.20m to 0.90m was observed. A mean was measured for the craters diameter. Using the equation E=mg$\Delta$h given that we have m, and g is a constant of 9.81 we can find the kinetic energy of the ball on impact. The relationship between crater diameter, D, and impact energy, E, is given by D=kE$^n$ where K is constant and n is found by the gradient of the graph and is also constant. This can be modified to give $\log D = n\log E + \log k$.
Will Wrathall
![Lab 6](https://writelatex.s3.amazonaws.com/published_ver/1877.jpeg?X-Amz-Expires=14400&X-Amz-Date=20240717T181627Z&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAWJBOALPNFPV7PVH5/20240717/us-east-1/s3/aws4_request&X-Amz-SignedHeaders=host&X-Amz-Signature=480b251fee03cac65b7758b14797f7ef7f10bf54b9e5d933414d35f569536204)
Lab 6
College Physics Lab Report
Arcadian Lee
![Barómetro](https://writelatex.s3.amazonaws.com/published_ver/1658.jpeg?X-Amz-Expires=14400&X-Amz-Date=20240717T181627Z&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Credential=AKIAWJBOALPNFPV7PVH5/20240717/us-east-1/s3/aws4_request&X-Amz-SignedHeaders=host&X-Amz-Signature=3af38e5903d7e16773f06a8bda4647214a351beee6f78253d2f32d91dfd5d86a)
Barómetro
El barómetro es un instrumento de medición atmosérica, específicamente utilizado en la determinación de la fuerza por unidad de superficie ejercida por el peso de la atmósfera. Existe un gran número de equipos atmoféricos con distintos tipos de estos aparátos y son diariamente utilizados ya que la presión atmosférica juega un papel importante en la determinación y pronóstico del tiempo así como en el área de investigación al momento de realizarse experimentos ya que pueden llegar a afectar o hacer variar el funcionamiento de muchos aparatos electrónicos y mecánicos.
luis castellanos