Detector Description - Materials

Slides:



Advertisements
Similar presentations
Chemical Quantities, the Mole, and Conversions.  Measuring Matter -The amount of something is usually determined one of three ways; by counting, by mass,
Advertisements

The Mole – A measurement of matter
Geant4 v9.4 Material Makoto Asai (SLAC) Geant4 Tutorial Course.
Defining Material Tatsumi Koi (SLAC/SCCS) (based on Makoto Asai's slides) Geant4 Tutorial Course Geant4 v8.2p01.
Detector Description: Materials
Percent Composition, Empirical Formula and Molecular Formula 10.4 summary.
Measuring Gases Objectives: 1. Explain what gas pressure means and describe how it is measured. Key Terms: atmospheric pressure, barometer, manometer,
Defining Materials Geant4 tutorial Paris, 4-8 June 2007 Giovanni Santin ESA / ESTEC Rhea System SA With material from previous tutorials by Makoto Asai.
The Mole: A measurement of Matter
Matter – Properties and Changes
EVERYTHING!!!! Anything that takes up space and has mass.
Matter Vocabulary. __________________ anything that has mass takes up space matter.
1. To learn about the composition of matter 2. To learn the difference between elements and compounds 3. To define the three states of matter.
Mole Relationships. By definition: 1 atom 12 C “weighs” 12 amu Atomic mass is the mass of an atom in atomic mass units (amu) The mole (mol) is the amount.
Materials 1 Images: Isotopic composition Molecular composition Density Pressure State Temperature.
Materials In nature, general materials (compounds, mixtures) are made by elements and elements are made by isotopes. These are the three main classes.
Chemistry is a material science! Define Chemistry.
Chapter 3 Matter Properties and Changes. Atom: The smallest particle of an element that retains all the properties of that element –Comprised of protons,
Work_Geant4 Bo-Wen Shiou. #include "G4RunManager.hh“ #include "G4RunManager.hh“ #include "G4UImanager.hh" #include "G4UImanager.hh" #include "ExN01DetectorConstruction.hh“
Special Topics in Nuclear Physics, JU, Second Semester, (Saed Dababneh). 1 Course web or
Chemical Formulas and Moles. Example: 1.water (C) – every molecule of water contains 2 atoms of hydrogen & one atom of oxygen - 2 molecules of H 2 O would.
CHAPTER 10 THE MOLE. The mole is a number (6.02 x ) It is a term like the term “dozen” It was chosen by chemists to make working with atomic weights.
The Mole Revision from S.G. 1 mole is the formula mass in grams. Concentration of solutions is measured in mol/l. We use moles to Balance equations. Example.
It’s time to learn about.... Stoichiometry: Percent Composition At the conclusion of our time together, you should be able to: 1. Determine the percent.
Chapter 4 – Matter ● Chemistry – The study of Matter ● Matter – any substance that has mass and occupies volume ● States of Matter ● Solid – definite shape.
CLASSIFICATION OF MATTER STATES OF MATTER CHANGES IN MATTER.
Choose a category. You will be given the answer. You must give the correct question. Click to begin.
Atomic Mass/Percent Composition. Average of Isotopes Every element typically exists in several isotope forms Isotopes are atoms of the same element with.
Monte Carlo /12/07. What is Geant ? Monte Carlo simulation tool for nuclear and particle physics Set up detectors –Sensitive detector which returns.
Chemistry the study of the properties of matter and how matter changes
Detector Description – Part I Ivana Hrivnacova, IPN Orsay Tatiana Nikitina, CERN Aknowledgement: Slides by: J.Apostolakis, G.Cosmo, A. Lechner
Chemical and Physical Properties of Matter
Engineering Chemistry 14/15 Fall semester Instructor: Rama Oktavian Office Hr.: M.13-15, Tu , W , Th ,
What is the percent carbon in C 5 H 8 NNaO 4 (MSG monosodium glutamate), a compound used to flavor foods and tenderize meats? a) 8.22 %C b) 35.5 %C c)
Material Definition University of Pennsylvania Geant4 Tutorial 15 May 2011 Dennis Wright Geant4 V9.4.
 Matter  Matter is anything that has MASS and TAKES UP SPACE. “stuff”  Substance  Substance is a single kind of matter that is pure.  Things that.
1 Matter and Change. 2 What is Matter?  Matter is anything that takes up space and has mass.  Mass is the amount of matter in an object.
CLHEP Components Geant4 and CLHEP Geant4 makes a rather substantial use of CLHEP components –System of units –Vector classes and matrices G4ThreeVector(typedef.
MATTER, MASS, DENSITY, PRESSURE, TEMPERATURE Working toward basic Thermodynamics and Fluid Theory.
By Study Helper. Calculating Density The answer is volume, mass, or density Definitions
MassMass Is a measure of the amount of matter. Mass is the measurement you make using a balance.
Detector Description - Materials
FUNDAMENTAL AND DERIVED QUANTITIES. Objectives of Learning Students are able to: identifier physical quantities in daily life collected physical quantities.
Chemical Quantities Key Question How can you convert among the count, mass, and volume of something? Knowing how the count, mass, and volume of.
Topic 1 Quantitative Chemistry. Describe and Apply Mole [2-6] 1 mole = 6.02 x – Avogadro’s constant 1 mole is the number of particles contained.
1 Elements, Compounds, and Mixtures. 2 What is Matter?  Matter is anything that has mass and volume.  All matter is composed of tiny particles.  Arrangement.
Detector Description – Part I Ivana Hrivnacova, IPN Orsay Tatiana Nikitina, CERN Aknowledgement: Slides by: J.Apostolakis, G.Cosmo, A. Lechner
Matter and Measurement
WARM -UP CLASSIFY EACH SUBSTANCE AS APURE SUBSTANCE OR MIXTURE.IF IT’S A PURE SUBSTANCE, CLASSIFY AS AN ELEMENT OR COMPOUND.IF IT’S A MIXTURE, CLASSIFY.
Elements, Compounds, and Mixtures
Classification and Properties of Matter
Atoms, Elements, Molecules,& Compounds
Chapter 10.1 The Mole: A Measurement of Matter
CELEBRITY CHEMIST of THE DAY
Matter And Energy.
Chapter 2 Matter and Change 2.1 Properties of Matter 2.2 Mixtures
Jeopardy Final Jeopardy $100 $100 $100 $100 $100 $200 $200 $200 $200
Matter Vocabulary.
Matter And Energy Chemistry Ch 3.
General Science– Structure of Matter, Chapter 2
Detector Description - Materials
Kernel Author: Makoto Asai.
Practice: Determine the molar mass for the following:
Created by C. Ippolito June 2007
Matter and Measurement
Introduction/ Review of Atomic Structure
Elements and Compounds
Matter 2.3 Compounds and Mixture.
Matter Vocabulary.
Presentation transcript:

Detector Description - Materials

Materials - The System of units & constants - Definition of elements - Materials and mixtures - Some examples …

G.Cosmo, Detector Description - Geant4 Course3 Unit system Geant4 has no default unit. To give a number, unit must be “ multiplied ” to the number. for example : G4double width = 12.5*m; G4double density = 2.7*g/cm3; If no unit is specified, the internal G4 unit will be used, but this is discouraged ! Almost all commonly used units are available. The user can define new units. Refer to CLHEP: SystemOfUnits.h Divide a variable by a unit you want to get. G4cout << dE / MeV << “ (MeV) ” << G4endl;

G.Cosmo, Detector Description - Geant4 Course4 System of Units System of units are defined in CLHEP, based on: millimetre ( mm ), nanosecond ( ns ), Mega eV ( MeV ), positron charge ( eplus ) degree Kelvin ( kelvin ), the amount of substance ( mole ), luminous intensity ( candela ), radian ( radian ), steradian ( steradian ) All other units are computed from the basic ones. In output, Geant4 can choose the most appropriate unit to use. Just specify the category for the data ( Length, Time, Energy, etc … ): G4cout << G4BestUnit(StepSize, “Length”); StepSize will be printed in km, m, mm or … fermi, depending on its value

G.Cosmo, Detector Description - Geant4 Course5 Defining new units New units can be defined directly as constants, or (suggested way) via G4UnitDefinition. G4UnitDefinition ( name, symbol, category, value ) Example (mass thickness): G4UnitDefinition (“grammpercm2”, “g/cm2”, “MassThickness”, g/cm2); The new category “ MassThickness” will be registered in the kernel in G4UnitsTable To print the list of units: From the code G4 UnitDefinition::PrintUnitsTable(); At run-time, as UI command: Idle> /units/list

G.Cosmo, Detector Description - Geant4 Course6 Definition of Materials Different kinds of materials can be defined: isotopes<>G4Isotope elements<>G4Element molecules<>G4Material compounds and mixtures <> G4Material Attributes associated: temperature, pressure, state, density

G.Cosmo, Detector Description - Geant4 Course7 Isotopes, Elements and Materials G4Isotope and G4Element describe the properties of the atoms: Atomic number, number of nucleons, mass of a mole, shell energies Cross-sections per atoms, etc… G4Material describes the macroscopic properties of the matter: temperature, pressure, state, density Radiation length, absorption length, etc…

G.Cosmo, Detector Description - Geant4 Course8 Elements & Isotopes Isotopes can be assembled into elements G4Isotope (const G4String& name, G4int z, // atomic number G4int n, // number of nucleons G4double a ); // mass of mole … building elements as follows: G4Element (const G4String& name, const G4String& symbol, // element symbol G4int nIso ); // # of isotopes G4Element::AddIsotope(G4Isotope* iso, // isotope G4double relAbund); // fraction of atoms // per volume

G.Cosmo, Detector Description - Geant4 Course9 Material of one element Single element material G4double density = 1.390*g/cm3; G4double a = 39.95*g/mole; G4Material* lAr = new G4Material("liquidArgon",z=18.,a,density); Prefer low-density material to vacuum

G.Cosmo, Detector Description - Geant4 Course10 Material: molecule A Molecule is made of several elements (composition by number of atoms): a = 1.01*g/mole; G4Element* elH = new G4Element("Hydrogen",symbol="H",z=1.,a); a = 16.00*g/mole; G4Element* elO = new G4Element("Oxygen",symbol="O",z=8.,a); density = 1.000*g/cm3; G4Material* H2O = new G4Material("Water",density,ncomp=2); H2O->AddElement(elH, natoms=2); H2O->AddElement(elO, natoms=1);

G.Cosmo, Detector Description - Geant4 Course11 Material: compound Compound: composition by fraction of mass a = 14.01*g/mole; G4Element* elN = new G4Element(name="Nitrogen",symbol="N",z= 7.,a); a = 16.00*g/mole; G4Element* elO = new G4Element(name="Oxygen",symbol="O",z= 8.,a); density = 1.290*mg/cm3; G4Material* Air = new G4Material(name="Air",density,ncomponents=2); Air->AddElement(elN, 70.0*perCent); Air->AddElement(elO, 30.0*perCent);

G.Cosmo, Detector Description - Geant4 Course12 Material: mixture Composition of compound materials G4Element* elC = …; // define “carbon” element G4Material* SiO2 = …; // define “quartz” material G4Material* H2O = …; // define “water” material density = 0.200*g/cm3; G4Material* Aerog = new G4Material("Aerogel",density,ncomponents=3); Aerog->AddMaterial(SiO2,fractionmass=62.5*perCent); Aerog->AddMaterial(H2O,fractionmass=37.4*perCent); Aerog->AddElement (elC,fractionmass= 0.1*perCent);

G.Cosmo, Detector Description - Geant4 Course13 Example: gas It may be necessary to specify temperature and pressure (dE/dx computation affected) G4double density = 27.*mg/cm3; G4double temperature = 325.*kelvin; G4double pressure = 50.*atmosphere; G4Material* CO2 = new G4Material(“CarbonicGas", density, ncomponents=2 kStateGas, temperature, pressure); CO2->AddElement(C,natoms = 1); CO2->AddElement(O,natoms = 2);

G.Cosmo, Detector Description - Geant4 Course14 Example: vacuum Absolute vacuum does not exist. It is a gas at very low density ! Cannot define materials composed of multiple elements through Z or A, or with  = 0. G4double atomicNumber = 1.; G4double massOfMole = 1.008*g/mole; G4double density = 1.e-25*g/cm3; G4double temperature = 2.73*kelvin; G4double pressure = 3.e-18*pascal; G4Material* Vacuum = new G4Material(“interGalactic", atomicNumber, massOfMole, density, kStateGas, temperature, pressure);

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.