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Blaise Pascal High School’s proposal for the E.E.E. project. A utonomous since 1979,’Liceo B laise Pascal’’ is an high school operating in P omezia ( R ome). I t offers many school addresses including :
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Blaise Pascal High School’sproposal for the E.E.E. project Autonomoussince 1979,’Liceo Blaise Pascal’’ is an high schooloperating in Pomezia (Rome). Itoffersmanyschooladdressesincluding: Scientificaddressthatprovides a groundedscientificknowledge and skills, withoutneglectinghumanisticsubjects; Classic address; International address,available for studentsattendingboth the addressesmentioned, itoffersenglish,french and spanishcourses, supporting the students to get PET, FCE, DELF and DELE certifications; Cambridge addressincludescurricularlessons in english and allowsstudents to obtain IGCSE certification.
Our school gives always the best to participate to a lot of projects such as maths and physics competitions, national science initiatives (E.E.E. project), creative writing courses and competitions and theater projects. We also participated to a lot of scolastic exchanges with other EU countries. ‘’Liceo Blaise Pascal’’ wants to give us a promising future, a constant progress and a continuous comparison with the rest of the world, but also keeping in touch with our culture and national identity.
MOTIVATIONS • Strong passion for physics and marked interest in this project; • We would like to exploit our capabilities at the best and reach good results; • Need of reaching an high-quality level of the education and training provided.
EEE Project Liceo blaise pascal - Pomezia Electrosmog and muons flow Members: Pierotti Davide, Ridolfi Yasmine, Pellegrini Martina, La Scala Diego
Requiredtools What is the purpose of this study? We want to study the correlation between muons flow and their interaction with electromagnetic fields • Cosmic Box • Faraday cage • EMF reader • EMF generators (radio transmitters, magnetrons, etc.)
1° application Measure the impact of electromagnetic fields on the measurement of muons flow in the same weather conditions (pressure, temperature, altitude, etc…) Faraday cage CB CB
2° application Measure the muons flow in different places with different electromagnetic fields CB CB
Many other applications • Electromagnetic fields are everywhere • They are easy to create Creativity! An example 220VAC T = Variable transformer D = Full bridge rectifier M = Magnetron R = EMF Reader Rpi = Raspberry Pi (or other microcontroller) Faraday cage T M D HVDC CB R RPi Data storage/analysis Webserver (opt)
EEE Project – Extreme Energy Events Lorenzo Lentini, Giorgio d’Antonio, Simone Galdiero, Massimiliano Miotto, Andrea Cassano, Alin Buzoi
What we aspire to? Our goal is to find out something new about Muons and relation between these and external conditions. Our three ideas: • Muons and liquids • Muons and Sun • Muons and altitude
Muonic flux trough liquids The aim consists in studying numeric variations of muons noticed through different aqueous mixtures (e.g. salty water or water with chlorine). We’ve tought to cover the cosmic box with a waterproof film in addition to a light cover so it can be fully submerged in water.
Influence of Sun in muon rays We know that there’s a difference between the muon numbers during the daytime and during the night, so we think it could be interesting to analyze how this variation works. Considering electromagnetical fields of Earth and Sun, we could discover some useful properties of this little particle and its trajectory.
Muons depending on altitude Muon number noticed changes as a function of the space done by the particle, so depends on altitude. Doing an evaluation, we could round off the amount of muons before the collision with atmosphere.
EeeproJect - liceo b. pascalby mikaelieva. silvia De luca, lorenzo cervini , alessandro fracassi e riccardolorini Our project utilises the cosmic box in order to study muons: these will have to go throught elements lying in a gas or solid state inside a container placed just above the cosmic box. We will therefore be able to tell by what percent the muons will react with the element each time present and which is to change every two hours, in order for the team to observe if there is any sensible change in the reaction. We will only use elements with a low electronegativity value, because there could be a higher probability for a muonic atom to form. In a muonic atom, muons substitute for electrons, despite having a 207 times higher mass than that of the electron. Yet this is going to cause no problems, since later the muon decays into an electron. It may – although this is seldom found - emit a photon and, by placing a detector, we would like to observe by what percentage this happens.
These are our ideas and our objectives……now it’s up to you! SPEAKERS: Valentini Bianca Ridolfi Yasmine Cassano Andrea Ieva Mikael