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Lecture
Stellar Systems Dynamics
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Related lectures (31)
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Normal Distribution: Properties and Calculations
Covers properties and calculations related to the normal distribution, including probabilities and quantiles.
Continuous Random Variables: Basic Ideas
Explores continuous random variables and their properties, including support and cumulative distribution functions.
Brownian Motion: Fundamentals and Applications
Explores the fundamentals of Brownian motion, including particle positions and distribution functions.
Convergence in Distribution
Covers the concept of convergence in distribution and its characterization using moments.
Collisionless Boltzmann Equation
Explores the Collisionless Boltzmann Equation, Jeans theorems, and equilibria of collisionless systems, focusing on connections between barotropic fluids and ergodic stellar systems.
Discrete Random Variables
Covers properties and transformations of discrete random variables, focusing on PMF and expectation.
Stellar Orbits: Lindblad Resonances and Collisionless Boltzmann Equation
Explores weak bars, resonances, and equilibria in stellar systems.
Random Variables: Expectation and Independence
Explores random variables, expectation, and independence in probability theory.
Probability Distributions: Central Limit Theorem and Applications
Discusses probability distributions and the Central Limit Theorem, emphasizing their importance in data science and statistical analysis.
Linear Combinations: Moment-Generating Functions
Explores moment-generating functions, linear combinations, and normality of random variables.
