Numerical calculation for physics laboratory projects using Microsoft EXCEL® /

This book covers essential Microsoft EXCEL®'s computational skills while analyzing introductory physics projects. Topics of numerical analysis include; multiple graphs on the same sheet, calculation of descriptive statistical parameters, a 3-point interpolation, the Euler and the Runge-Kutter m...

Descripción completa

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Cho, Shinil (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2019]
Colección:IOP (Series). Release 6.
IOP expanding physics.
Temas:
Microsoft Excel (Computer file)
Physics > Data processing.
Mathematical physics.
SCIENCE / Physics / Mathematical & Computational.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Response time of the nervous system
  • 1.1. Objectives
  • 1.2. Theory and procedure
  • 1.3. Data analysis
  • 1.4. Central limit theorem
  • 2. Constant acceleration motion
  • 2.1. Objectives
  • 2.2. Theory and procedure
  • 2.3. Data analysis
  • 3. Equation of motion
  • 3.1. Objectives
  • 3.2. Theory and procedure
  • 3.3. Data analysis
  • 3.4. Solving equation of motion using the Euler method
  • 3.5. Runge-Kutta method
  • 3.6. Runge-Kutta method for simultaneous ordinary differential equations
  • 4. Periodic motions
  • 4.1. Objectives
  • 4.2. Theory and procedure
  • 4.3. Data analysis
  • 4.4. Further investigation--minimum period of a physical pendulum
  • 4.5. More periodic motions
  • 5. Lissajous figures
  • 5.1. Objectives
  • 5.2. Theory and procedure
  • 5.3. Lissajous figures using EXCEL
  • 5.4. Animation of graphs
  • 6. Kirchhoff's law
  • 6.1. Objectives
  • 6.2. Theory and procedure
  • 6.3. Circuit under measurement
  • 6.4. Data analysis
  • 7. Equipotential surface
  • 7.1. Objectives
  • 7.2. Measurement procedure
  • 7.3. Data analysis
  • 7.4. Further investigation
  • 8. Magnetic field profile
  • 8.1. Objectives
  • 8.2. Theory and procedure
  • 8.3. Measurement
  • 8.4. Additional study
  • 9. Law of refraction
  • 9.1. Objective
  • 9.2. Theory and procedure
  • 9.3. Data analysis
  • 9.4. Projectile motion based on the least action principle
  • 9.5. Eigen value problems using Solver
  • 10. Quantum particle trajectories
  • 10.1. Objectives
  • 10.2. Theory--Nelson's approach
  • 10.3. Analysis of quantum particle trajectories.

Ejemplares similares