Video: .mp4 (1280×720) | Audio: AAC, 44100 kHz, 2ch | Size: 1.34 Gb
Genre: eLearning Video | Duration: 5h 27m | Language: English
Learn Essential Programming Fundamentals. Master programming skills to solve complex problems.
Programming is an increasingly important skill, whether you aspire to a career in software development, or in other fields. This course is the first in the specialization Introduction to Programming in C, but its lessons extend to any language you might want to learn. This is because programming is fundamentally about figuring out how to solve a class of problems and writing the algorithm, a clear set of steps to solve any problem in its class. This course will introduce you to a powerful problem-solving process-the Seven Steps-which you can use to solve any programming problem. In this course, you will learn how to develop an algorithm, then progress to reading code and understanding how programming concepts relate to algorithms.
Writing, Running, and Fixing Code in C
Building on the course Programming Fundamentals, this course will teach you how to write code by first planning what your program should do-an important approach for novice and professional programmers. You will learn how to compile and run your program, and then how to test and debug it. This course builds on the Seven Steps you have already learned
Pointers, Arrays, and Recursion
The third course in the specialization Introduction to Programming in C introduces the programming constructs pointers, arrays, and recursion. Pointers provide control and flexibility when programming in C by giving you a way to refer to the location of other data. Arrays provide a way to bundle data by guaranteeing sequences of data are grouped together. Finally, recursive functions-functions that call themselves-provide an alternative to iteration that are very useful for implementing certain algorithms.
Interacting with the System and Managing Memory
The final course in the specialization Introduction to Programming in C will teach you powerful new programming techniques for interacting with the user and the system and dynamically allocating memory. You will learn more sophisticated uses for pointers, such as strings and multidimensional arrays, as well as how to write programs that read and write files and take input from the user. Learning about dynamic memory allocation will allow your programs to perform complex tasks that will be applied in the final part of the specialization project: a Monte Carlo simulation for calculating poker hand probabilities.