What you'll learn:
- Level up your python programming skill with over 100 beginners best practices
- How to find even and odd number in python
- How to detect Positive and Negative Numbers
- How to check for Even and odd Numbers
- How to check for Greatest of 3 Numbers
- How to check for divisibility of a Number
- How to convert from Celsius to Fahrenheit
- How to check for Leap year
- How to check if a point belongs to Circle
- How to create quadratic Equation
- How to make guess of Random number
- How to create a Multiplication Table using while loop
- How to build a simple Calculator
- How to get Sum and Product of digits
- How to make a Binary search of number in an array
- Lots more...
Unlock the world of programming with “100 Python Programming Practices/Common Projects to Improve Your Coding Skill.” Designed for beginners, this comprehensive course will guide you through the foundational concepts of Python, helping you to develop practical coding skills through hands-on projects. Whether you’re a complete novice or looking to solidify your programming knowledge, this course is tailored to provide you with a robust learning experience.
What You Will Learn:
Basic Number Operations:
Detect Positive and Negative Numbers: Learn how to classify and work with different types of numbers.
Check for Even and Odd Numbers: Master techniques to identify and handle even and odd numbers.
Greatest of 3 Numbers: Compare and determine the largest number among three inputs.
Divisibility Check: Develop methods to check if one number is divisible by another.
Temperature Conversion:
Celsius to Fahrenheit & Fahrenheit to Celsius: Understand temperature conversion with practical applications.
Create a Simple Thermometer: Apply your knowledge to build a basic thermometer application.
Physics and Geometry:
Calculate Mass, Density, and Volume: Use Python to solve fundamental physics problems.
Determine Quadrant of a Point: Identify the location of points in a coordinate system.
Triangle Existence & Leap Year Check: Solve basic geometric and date-related problems.
Mathematical Operations:
Quadratic Equations: Create and solve quadratic equations.
Random Number Queues & ASCII Table: Work with random numbers and ASCII values.
Multiplication Tables: Generate multiplication tables using while and for loops.
Base Conversions: Convert numbers between different bases (2 to 9).
Building a Calculator:
Simple Calculator: Develop a basic calculator to perform arithmetic operations.
Number Operations: Count digits, find the sum and product of digits, and perform binary searches.
Series and Sequences:
Sum of N Series & Factorials: Calculate series sums and factorials using loops.
Fibonacci Sequence: Generate and find values in the Fibonacci sequence.
Prime and Complex Numbers:
Prime Number Detection: Identify prime and complex numbers.
Quadratic Equations: Solve quadratic equations within specified ranges.
String Manipulation:
Expand and Replace Substrings: Perform various string operations, including replacing substrings and expanding strings.
Sort Words and Find Longest Word: Work with strings to sort words and find the longest word.
Palindrome Check: Determine if a string is a palindrome.
Array and List Operations:
Generate Random Numbers: Create arrays with random numbers.
Find Maximum and Minimum Elements: Identify the largest and smallest elements in arrays.
Sort and Intersect Lists: Perform sorting and find intersections between lists.
Matrix Operations: Sum items, sort columns, and work with matrix diagonals.
File Handling:
Read and Write Files: Master file operations including reading, writing, and counting lines, words, and letters.
Error Handling: Capture and handle various errors, including file and division errors.
Advanced Topics:
Classes and Constructors: Use classes to create and manage objects in Python.
Recursive Functions: Implement recursion for calculating Fibonacci sequences and factorials.
LCM and GCD: Calculate the least common multiple and greatest common divisor.
Scientific Calculations:
Orbital Speed and Geometric Calculations: Apply Python to solve real-world scientific problems.
In this course, you will master essential Python programming concepts by working on 100 diverse projects, ranging from simple to complex. Each project is designed to enhance your understanding of Python and improve your problem-solving skills. Here’s a sneak peek into what you’ll learn:
Basic Number Operations: Detect positive and negative numbers, check for even and odd numbers, and determine the greatest of three numbers.
Temperature Conversion: Convert between Celsius and Fahrenheit, and create a simple thermometer application.
Physics Calculations: Calculate mass, density, and volume, and determine the quadrant of a point.
Geometry: Check if a triangle exists, determine if a point belongs to a circle, and solve quadratic equations.
Random Number Generation: Make queues of random numbers and generate random numbers using arrays.
Multiplication Tables: Create multiplication tables using both while and for loops.
Base Conversions: Convert numbers between different bases (2 to 9).
Simple Calculator: Build a basic calculator to perform arithmetic operations.
Digit Operations: Count the number of digits in an integer, sum and product of digits, and perform binary search in an array.
Series and Sequences: Calculate the sum of N series, generate Fibonacci sequences, and find the greatest common divisor (GCD).
Prime and Complex Numbers: Identify prime and complex numbers, and solve quadratic equations with specified coefficient ranges.
String Operations: Expand strings, replace substrings, select integers from strings, sort words by length, and find the longest word.
Array Manipulations: Reverse numbers, generate random matrices, and perform bubble and selection sorting.
File Handling: Read and write to files, count lines, words, and letters, and handle file extensions and errors.
Data Structures: Work with lists, dictionaries, and matrices. Create and manipulate complex data structures.
Error Handling: Capture and handle string errors, division by zero, index out of bounds, and raise exceptions.
Class and Object-Oriented Programming: Use classes, constructors, and methods to build robust Python applications.
Mathematical Calculations: Calculate the area and perimeter of geometric shapes, surface area of cylinders, and more.
Advanced Topics: Work on projects involving orbital speed, ring shifts, and more advanced mathematical and scientific calculations.
Why Enroll in This Course?
Comprehensive Curriculum: Gain practical experience with 100 diverse and engaging projects.
Beginner-Friendly: Designed specifically for beginners, with step-by-step guidance and clear explanations.
Practical Learning: Apply your knowledge through hands-on projects that simulate real-world scenarios.
Skill Enhancement: Improve your coding skills, problem-solving abilities, and understanding of Python.
Flexible Learning: Learn at your own pace with lifetime access to course materials and projects.
Join “100 Python Programming Practices/Common Projects to Improve Your Coding Skill” today and take the first step towards becoming a proficient Python programmer. Whether you’re starting a new career in tech or looking to enhance your programming skills, this course is your gateway to success. Enroll now and start coding with confidence!