Free video course provides the basics, history and real-world applications of discrete calculus as well as associated Wolfram Language functionality. Covers sequences, series, permutations, combinations, probability, Riemann sums.
Summary
Discrete calculus is the basis for continuous calculus and the numerical algorithms used in it. This course provides an introduction to the foundations of discrete calculus. It discusses the basics, history and real-world applications of discrete calculus as well as associated Wolfram Language functionality.
Featured Products & Technologies: Wolfram Language (available in Mathematica and Wolfram|One)
You'll Learn To
Work with sequences and series as a first step toward understanding the foundation of modern calculus
Perform basic calculus computations (permutations, combinations, probability, Riemann sums) using Wolfram Language syntax and functions
Use specific mathematical notation when performing discrete calculus computations
Define types of numbers and their properties (prime, Fibonacci, Lucas, harmonic, Bell, Bernoulli, Stirling)
Summary
Discrete calculus is the basis for continuous calculus and the numerical algorithms used in it. This course provides an introduction to the foundations of discrete calculus. It discusses the basics, history and real-world applications of discrete calculus as well as associated Wolfram Language functionality.
Featured Products & Technologies: Wolfram Language (available in Mathematica and Wolfram|One)
You'll Learn To
Work with sequences and series as a first step toward understanding the foundation of modern calculus
Perform basic calculus computations (permutations, combinations, probability, Riemann sums) using Wolfram Language syntax and functions
Use specific mathematical notation when performing discrete calculus computations
Define types of numbers and their properties (prime, Fibonacci, Lucas, harmonic, Bell, Bernoulli, Stirling)
