This is my CV made available for people to reuse the format. Note that there are two CVs - one business and one tech oriented. It's always good to have variants and to tweak the content to suit where you're applying.
Deedy - One Page Two Column Resume
The proof of the Dual State Lemma in Chapter 2.3 of Gilbert and Porter's Knots and Surfaces has some problems with the exposition and a critical typo. This document reworks the proof to make it more correct and comprehensible. (This material starts on page 33.)
Muons compose the penetrating component of Cosmic Rays. At sea level, they constitute the largest part of Secondary Cosmic Rays, giving an average flux of ≈ 100 m−2s−1sr−1. The aim of our experiment is to estimate, from muon decay, the mean lifetime and the mass of invisible products. Our experimental setup includes four detectors: three of them are plastic scintillators and compose the trigger system, while the last one is a liquid scintillator which measures the particles energy. All these scintillators are read by photomultipliers. Trigger and pulse thresholds are computed by logical and temporal modules in a VME crate. The Data Acquisition System has been verified to work properly. It is composed of two fADCs modules, one I/O Register, one Motorola computer and a Farm. The liquid scintillator has been calibrated in energy using both passing muons and 60CO gamma source. Thanks to the charge-energy conversion factor we estimated electron energy spectrum. In particular we selected a sample of decay events by estimating muon mean lifetime τμ = 2.19 ± 0.34 μs; then we finally extrapolated an upper limit for invisible products mass mν < 5.99 ± 0.73 MeV/c2.
A calendar of circles
Author: Till Tantau (The PGF manual),
and Stefan Kottwitz (Modifications such as shaded circles and color) and Antonio Paolini (modified position of months to turn clockwise and moved January at top.)
Note: you can export the pdf to see the result at full
In this lab we will convert solid magnesium to solid magnesium oxide. We intend to confirm the formula of our product by comparing the experimental and theoretical percent magnesium along with the experimental and theoretical mass produced of magnesium oxide.