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Coding Practices in C, C++, C#, Java & Python + 5 FREE Books

Last updated on December 23, 2024 8:15 pm
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Description

What you’ll learn

  • You will build lots of projects that will help to strengthen your skill in C, C++, C#, Java and Python language programming in this course
  • You will implement programs to master operators such as Arithmetic, Relational, Logical, Bitwise operators and so on
  • You will implement programs to master decision statements such as if statement, if else statement, else if statement etc
  • You will implement programs to master loop systems such as for loop, while loop and do while loop
  • Go through the course curriculum to see the rich projects you will execute in this course

Embark on an exciting journey into the world of programming with the “500+ Beginners CODING Practices in Python, Java, C, C++, & C#” course. Designed specifically for beginners, this course offers an extensive collection of coding exercises and projects across five of the most popular programming languages. Whether you’re just starting out or looking to reinforce your programming skills, this course provides the hands-on experience you need to become proficient in Python, Java, C, C++, and C#.

What You Will Learn:

This course is packed with over 500 coding exercises that cover the essential concepts of programming through practical, real-world projects. Here’s a glimpse of what you’ll master:

1. User Input Projects:

  • Basic Input/Output: Learn how to interact with users by accepting inputs and displaying outputs in each language.

  • Data Validation: Implement projects that check user inputs for accuracy, ensuring robust and user-friendly applications.

  • Interactive Games: Create simple text-based games that rely on user inputs to function, like number guessing games and quizzes.

2. Number Manipulation Projects:

  • Swapping Numbers: Write programs to swap two numbers using various methods, including temporary variables and arithmetic operations.

  • Arithmetic Operations: Develop projects that perform basic calculations like addition, subtraction, multiplication, and division.

  • Prime Number Checkers: Create programs that determine whether a given number is prime.

3. String Manipulation Projects:

  • Palindrome Checker: Develop programs that check whether a string reads the same forward and backward.

  • String Reversal: Write code to reverse the characters in a string, a fundamental exercise in understanding data manipulation.

  • Word Count: Build applications that count the number of words in a sentence or paragraph.

4. Control Flow and Decision-Making Projects:

  • Even/Odd Number Checker: Implement programs that determine whether a number is even or odd.

  • Leap Year Calculator: Write a program that checks if a given year is a leap year.

  • Grading System: Create a simple grading system that assigns letter grades based on numerical scores.

5. Looping and Iteration Projects:

  • Factorial Calculator: Develop programs to calculate the factorial of a number using loops.

  • Fibonacci Series: Implement a project that generates the Fibonacci sequence up to a certain number.

  • Pattern Printing: Write code to print various patterns like triangles, squares, and pyramids using loops.

6. Array and List Manipulation Projects:

  • Array Sorting: Implement sorting algorithms like bubble sort and selection sort.

  • Sum of Elements: Write programs that calculate the sum of elements in an array or list.

  • Finding the Maximum and Minimum: Develop projects to find the largest and smallest elements in a list or array.

7. Object-Oriented Programming (OOP) Projects:

  • Class and Object Creation: Learn how to create classes and objects to model real-world scenarios.

  • Inheritance and Polymorphism: Implement projects that demonstrate the power of OOP concepts like inheritance and polymorphism.

  • Simple Banking System: Create a basic banking application that handles deposits, withdrawals, and balance inquiries.

8. File Handling Projects:

  • Reading from and Writing to Files: Develop programs that read data from files and write data to files.

  • File Encryption/Decryption: Implement simple encryption and decryption techniques for files.

  • Log File Analysis: Create a project that processes and analyzes log files.

9. Data Structures and Algorithms Projects:

  • Linked List Implementation: Write code to create, traverse, and manipulate linked lists.

  • Binary Search: Implement the binary search algorithm to efficiently find elements in a sorted array.

  • Stack and Queue Operations: Develop projects that simulate stack and queue operations.

Benefits of Taking This Bootcamp Course:

  • Extensive Practice: With over 500 coding exercises, this course ensures you get the hands-on experience needed to solidify your understanding of programming concepts across multiple languages.

  • Language Versatility: By working on projects in Python, Java, C, C++, and C#, you’ll develop a versatile skill set that is applicable in various areas of software development.

  • Problem-Solving Skills: Each project is designed to challenge you and enhance your problem-solving abilities, making you a more effective and efficient programmer.

  • Real-World Applications: The projects you work on are not just theoretical; they’re practical exercises that reflect real-world programming scenarios, giving you the confidence to tackle real coding challenges.

  • Portfolio Development: By the end of this course, you’ll have a portfolio of projects that you can showcase to potential employers, demonstrating your coding skills and your ability to work with different programming languages.

  • Career Advancement: Mastering these languages and completing this extensive range of projects will make you a strong candidate for entry-level programming positions, internships, and more.

Who Should Take This Course?

  • Complete Beginners: If you’re new to programming, this course is the perfect starting point. It provides clear, structured lessons that gradually build your skills through practice.

  • Aspiring Developers: If you’re looking to break into the tech industry, this bootcamp will equip you with the fundamental skills needed to succeed.

  • Students and Professionals: Whether you’re a student looking to supplement your learning or a professional aiming to reskill, this course offers a wealth of practical exercises to boost your proficiency.

Enroll now in the “500+ Beginners CODING Practices in Python, Java, C, C++, & C#” course and start your journey to becoming a skilled programmer. With this course, you’ll gain the knowledge, experience, and confidence needed to excel in the world of programming, opening doors to new opportunities and career paths in the tech industry.

Python is an interpreted, high-level and general-purpose programming language. Created by Guido van Rossum and first released in 1991, Python’s design philosophy emphasizes code readability with its notable use of significant whitespace. Its language constructs and object-oriented approach aim to help programmers write clear, logical code for small and large-scale projects.

Python is dynamically typed and garbage-collected. It supports multiple programming paradigms, including structured (particularly, procedural), object-oriented, and functional programming. Python is often described as a “batteries included” language due to its comprehensive standard library.

Python was created in the late 1980s as a successor to the ABC language. Python 2.0, released in 2000, introduced features like list comprehensions and a garbage collection system with reference counting.

Python 3.0, released in 2008, was a major revision of the language that is not completely backward-compatible, and much Python 2 code does not run unmodified on Python 3.

The Python 2 language was officially discontinued in 2020 (first planned for 2015), and “Python 2.7.18 is the last Python 2.7 release and therefore the last Python 2 release.” No more security patches or other improvements will be released for it. With Python 2’s end-of-life, only Python 3.6.x and later are supported.

Java is a class-based, object-oriented programming language that is designed to have as few implementation dependencies as possible. It is a general-purpose programming language intended to let application developers write once, run anywhere (WORA), meaning that compiled Java code can run on all platforms that support Java without the need for recompilation. Java applications are typically compiled to bytecode that can run on any Java virtual machine (JVM) regardless of the underlying computer architecture. The syntax of Java is similar to C and C++, but it has fewer low-level facilities than either of them. As of 2019, Java was one of the most popular programming languages in use according to GitHub, particularly for client-server web applications, with a reported 9 million developers.

Java was originally developed by James Gosling at Sun Microsystems (which has since been acquired by Oracle) and released in 1995 as a core component of Sun Microsystems’ Java platform. The original and reference implementation Java compilers, virtual machines, and class libraries were originally released by Sun under proprietary licenses. As of May 2007, in compliance with the specifications of the Java Community Process, Sun had relicensed most of its Java technologies under the GNU General Public License. Oracle offers its own HotSpot Java Virtual Machine, however the official reference implementation is the OpenJDK JVM which is free open source software and used by most developers including the Eclipse IDE and is the default JVM for almost all Linux distributions.

The latest versions are Java 15, released in September 2020, and Java 11, a currently supported long-term support (LTS) version, released on September 25, 2018; Oracle released for the legacy Java 8 LTS the last free public update in January 2019 for commercial use, while it will otherwise still support Java 8 with public updates for personal use up to at least December 2020.

C is a general-purpose, procedural computer programming language supporting structured programming, lexical variable scope, and recursion, with a static type system. By design, C provides constructs that map efficiently to typical machine instructions. It has found lasting use in applications previously coded in assembly language. Such applications include operating systems and various application software for computer architectures that range from supercomputers to PLCs and embedded systems.

A successor to the programming language B, C was originally developed at Bell Labs by Dennis Ritchie between 1972 and 1973 to construct utilities running on Unix. It was applied to re-implementing the kernel of the Unix operating system. During the 1980s, C gradually gained popularity. It has become one of the most widely used programming languages, with C compilers from various vendors available for the majority of existing computer architectures and operating systems. C has been standardized by the ANSI since 1989 (ANSI C) and by the International Organization for Standardization (ISO). As of September 2020, C is the most popular programming language.

C is an imperative procedural language. It was designed to be compiled to provide low-level access to memory and language constructs that map efficiently to machine instructions, all with minimal runtime support. Despite its low-level capabilities, the language was designed to encourage cross-platform programming. A standards-compliant C program written with portability in mind can be compiled for a wide variety of computer platforms and operating systems with few changes to its source code.

C++ is a general-purpose programming language created by Bjarne Stroustrup as an extension of the C programming language, or “C with Classes”. The language has expanded significantly over time, and modern C++ now has object-oriented, generic, and functional features in addition to facilities for low-level memory manipulation. It is almost always implemented as a compiled language, and many vendors provide C++ compilers, including the Free Software Foundation, LLVM, Microsoft, Intel, Oracle, and IBM, so it is available on many platforms.

C++ was designed with a bias toward system programming and embedded, resource-constrained software and large systems, with performance, efficiency, and flexibility of use as its design highlights. C++ has also been found useful in many other contexts, with key strengths being software infrastructure and resource-constrained applications, including desktop applications, video games, servers (e.g. e-commerce, Web search, or SQL servers), and performance-critical applications (e.g. telephone switches or space probes).

C# is a general-purpose, multi-paradigm programming language encompassing strong typing, lexically scoped, imperative, declarative, functional, generic, object-oriented, and component-oriented programming disciplines.

[Ref: Wikipedia]

Who this course is for:

  • Junior Developers
  • Dummies
  • Students
  • Beginners

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