Lecture

Recap from classical mechanics and accelerator physics

Related lectures (32)

Canonical Transformations in Analytical Mechanics

Explores canonical transformations, conservation of quantities, and differential equations in analytical mechanics.

Classical Mechanics: Newton, Lagrange, Hamilton

Covers classical mechanics, including Newton's, Lagrange's, and Hamilton's formulations for calculating particle positions over time.

Air Pollution: Correlation Analysis

Covers correlation and cross-correlations in air pollution data analysis, including time series, autocorrelations, Fourier analysis, and power spectrum.

Nanotoxicology: Emerging Discipline from Ultrafine Particles

Explores nanotoxicology and atmospheric chemistry, focusing on particle deposition, emission, and acid deposition.

Autocorrelation and Periodicity

Explores autocorrelation, periodicity, and spurious correlations in time series data, emphasizing the importance of understanding underlying processes and cautioning against misinterpretation.

Introduction to Quantum Chaos

Covers the introduction to Quantum Chaos, classical chaos, sensitivity to initial conditions, ergodicity, and Lyapunov exponents.

Molecular dynamics under constraints

Explores molecular dynamics simulations under holonomic constraints, focusing on numerical integration and algorithm formulation.

Describing Data: Statistics and Hypothesis Testing

Covers descriptive statistics, hypothesis testing, and correlation analysis with various probability distributions and robust statistics.

Stylized Facts: Reproducible Research

Covers stylized facts in finance and reproducible research in scientific computing.

Critical Behavior in General Relativity

Explores critical behavior in general relativity, including scaling factor and coupling constant flow.

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