🚀 Day 11/150 – Find the Largest of Three Numbers in Python

Welcome back to the 150 Days of Python series!
Today, we’re leveling up from two numbers to three numbers 🔥

Finding the largest among three numbers helps you understand:

• Multiple conditions
• Logical comparisons
• Cleaner coding approaches

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🎯 Problem Statement

Write a Python program to find the largest of three numbers.

✅ Method 1 – Using if-elif-else

The most common and beginner-friendly approach.

a = 10 b = 25 c = 15 if a > b and a > c: print("Largest number is:", a) elif b > c: print("Largest number is:", b) else: print("Largest number is:", c)

👉 Explanation:

We compare all three values step by step to determine the largest.

✅ Method 2 – Taking User Input

Make your program interactive.

a = float(input("Enter first number: "))
b = float(input("Enter second number: "))
c = float(input("Enter third number: "))

if a > b and a > c:
    print("Largest number is:", a)
elif b > c:
    print("Largest number is:", b)
else:
    print("Largest number is:", c)

👉 Why this matters:
User input makes your program practical and real-world ready.

✅ Method 3 – Using a Function

Reusable and clean solution.

def find_largest(x, y, z): if x > y and x > z: return x elif y > z: return y else: return z print("Largest number:", find_largest(10, 25, 15))

👉 Pro Tip:

Functions help you organize and reuse your logic efficiently.

✅ Method 4 – Using Nested Conditions

Another way using nested if statements.

a = 10 b = 25 c = 15 if a > b: if a > c: print("Largest number is:", a) else: print("Largest number is:", c) else: if b > c: print("Largest number is:", b) else: print("Largest number is:", c)

👉 Use Case:
Helps understand deeper conditional structures.

🧠 Summary

Method	Best For
if-elif-else	Beginners
User Input	Real-world use
Function	Reusability
Nested if	Logical understanding

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Python Coding Challenge - Question with Answer (ID -060426)

 

Explanation:

📌 1. Importing the Library

import pandas as pd

pandas is a powerful Python library used for data analysis and manipulation.

as pd gives it a short alias (pd) so you don’t have to type pandas every time.

📌 2. Creating a Series

clcoding = pd.Series([10, 20, 30], index=[1, 2, 3])

pd.Series() creates a one-dimensional labeled array.

[10, 20, 30] → These are the data values.

index=[1, 2, 3] → These are the custom labels (indexes) assigned to each value.

👉 So the Series looks like this internally:

1    10

2    20

3    30

📌 3. Accessing Data Using iloc

print(clcoding.iloc[1])

iloc stands for integer-location based indexing.

It accesses data using position (starting from 0), NOT the index labels.

👉 Positions:

Position 0 → 10

Position 1 → 20

Position 2 → 30

So:

clcoding.iloc[1] → gets the second element → 20

📌 4. Output

20

Book: Numerical Python for Astronomy and Astrophysics

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Accounting Data Analytics Specialization

 

In today’s fast-evolving business landscape, accounting is no longer just about balancing books — it’s about analyzing data, predicting trends, and driving strategic decisions. This transformation has given rise to a new field: Accounting Data Analytics.

The Accounting Data Analytics Specialization is designed to equip learners with the skills needed to bridge the gap between traditional accounting and modern data analytics. It’s a powerful program for anyone looking to stay relevant in the data-driven financial world. 🚀

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💡 Why Accounting Needs Data Analytics

Modern organizations generate massive amounts of financial and operational data. Accountants today are expected to go beyond reporting and:

• Extract insights from financial data
• Detect fraud and anomalies
• Support strategic business decisions
• Automate repetitive accounting tasks

Data analytics enables professionals to turn raw numbers into meaningful insights that drive value.

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🧠 What You’ll Learn in This Specialization

This specialization provides a comprehensive learning path that combines accounting knowledge with analytical tools and techniques.

🔹 Building an Analytics Mindset

You’ll start by understanding how data analytics fits into accounting. The course introduces:

• Data-driven decision-making
• Analytical thinking frameworks
• The role of data in modern finance

It emphasizes developing an analytics mindset, which is essential for solving real-world problems.

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🔹 Data Preparation and Visualization

Before analysis, data must be clean and structured. You’ll learn:

• Data preparation techniques
• Visualization using tools like Excel
• Presenting insights clearly

These skills help transform raw financial data into understandable reports.

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🔹 Python for Accounting Analytics

The specialization introduces Python for:

• Data manipulation and analysis
• Visualization and reporting
• Automating accounting tasks

Using Python allows you to handle large datasets efficiently and perform advanced analysis.

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🔹 Machine Learning Applications

One of the most exciting parts of the program is applying machine learning to accounting. You’ll explore:

• Classification and regression
• Clustering and text analysis
• Time series forecasting
• Model optimization

These techniques are used in areas like risk assessment and financial prediction.

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🔹 Capstone Project: Real-World Application

The specialization includes a hands-on capstone project where you:

• Apply the CRISP-DM framework
• Build and evaluate models
• Solve real-world financial problems

For example, you may develop a model to predict loan repayment outcomes — a practical application of analytics in finance.

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🛠 Tools and Skills You’ll Gain

By the end of the specialization, you’ll be familiar with:

• Python (Pandas, Scikit-learn, Matplotlib)
• Excel for data analysis
• SQL for data querying
• Data visualization tools
• Machine learning techniques

These are highly in-demand skills across finance and analytics roles.

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🎯 Who Should Enroll?

This specialization is ideal for:

• Accounting and finance students
• Professionals looking to upskill
• Data analysts interested in finance
• Anyone exploring fintech or financial analytics

Even beginners can follow along, as the course builds from foundational concepts to advanced topics step by step.

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🚀 Career Opportunities

With these skills, you can explore roles such as:

• Financial Data Analyst
• Accounting Analyst
• Business Intelligence Analyst
• Risk Analyst
• Audit and Compliance Analyst

Companies increasingly seek professionals who can combine accounting expertise with data analytics skills.

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Join Free: Accounting Data Analytics Specialization

📌 Final Thoughts

Accounting is evolving — and data analytics is at the center of this transformation. Professionals who can analyze, interpret, and act on financial data are becoming invaluable in modern organizations.

The Accounting Data Analytics Specialization provides a complete roadmap to mastering this blend of skills. It not only teaches tools and techniques but also helps you think analytically and solve real-world problems.

If you’re looking to future-proof your career in finance and accounting, this specialization is a smart investment in your learning journey. 🌟

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AI for Content Creation

 

Content creation has always been at the heart of communication — from marketing campaigns to social media, presentations to storytelling. But today, a new creative partner is transforming how content is made: Artificial Intelligence.

The AI for Content Creation course introduces you to a powerful shift — using AI not just as a tool, but as a creative collaborator that helps you ideate, design, and refine content faster than ever before. 🚀

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💡 Why AI is Changing Content Creation

Creating high-quality content traditionally takes time, effort, and multiple revisions. AI changes this by enabling:

• Faster idea generation
• Automated design and formatting
• Smarter editing and refinement
• Consistent branding and style

AI tools can now generate text, images, videos, and presentations — helping creators move from concept to finished product in minutes.

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🧠 What You’ll Learn in This Course

This course is part of a broader AI learning path designed to build practical, job-ready skills. It focuses on using AI tools effectively in real-world creative workflows.

🔹 AI as Your Creative Partner

You’ll learn how to:

• Generate ideas using AI tools
• Refine and improve drafts
• Evaluate and enhance creative output

The course emphasizes collaboration between human creativity and AI capabilities.

---

🔹 Image and Video Generation

One of the most exciting aspects is learning how to:

• Create high-quality images using AI
• Generate videos from simple prompts
• Turn concepts into visual assets

These skills are especially useful in marketing, branding, and storytelling.

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🔹 AI-Powered Presentations

You’ll also explore how AI can transform presentations by:

• Converting basic ideas into polished slides
• Enhancing visual design automatically
• Creating professional-quality decks quickly

AI tools can significantly reduce the time spent on formatting and design.

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🔹 Creative Review and Iteration

The course teaches you to use AI like a creative director:

• Set design and branding guidelines
• Generate feedback for improvement
• Iterate quickly to refine outputs

This helps ensure your content is both consistent and impactful.

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🛠 Hands-On Learning Experience

This course is highly practical and interactive. You’ll:

• Work with real AI tools like Google Gemini
• Create portfolio-ready content (images, videos, presentations)
• Practice end-to-end content creation workflows

By the end, you’ll have tangible projects you can showcase.

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🎯 Who Should Take This Course?

This course is perfect for:

• Content creators and marketers
• Students and professionals
• Social media managers
• Entrepreneurs and business owners
• Anyone interested in AI-powered creativity

No advanced technical background is required — it’s designed to be beginner-friendly.

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🚀 Real-World Applications

AI-powered content creation is already transforming industries:

• 📱 Social media content and campaigns
• 📢 Digital marketing and advertising
• 🎨 Graphic design and branding
• 🎥 Video production and storytelling
• 📊 Business presentations and reports

AI helps creators produce more content, faster — without sacrificing quality.

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Join Now: AI for Content Creation

📌 Final Thoughts

The future of content creation is not just human — it’s human + AI.

AI for Content Creation shows how you can leverage AI tools to boost creativity, improve efficiency, and stay competitive in a fast-evolving digital world.

Whether you're building a personal brand, managing marketing campaigns, or simply exploring creative possibilities, this course gives you the skills to create smarter, faster, and better. 🌟

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Unsupervised Machine Learning

 

In the world of data science, not all data comes neatly labeled. In fact, much of the real-world data we encounter has no predefined answers — and that’s where unsupervised machine learning becomes incredibly powerful.

The Unsupervised Machine Learning course offers a deep dive into how machines can uncover patterns, structures, and insights from raw, unlabeled data — a critical skill for modern data scientists. 🚀

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💡 What is Unsupervised Machine Learning?

Unlike supervised learning, where models learn from labeled examples, unsupervised learning works with data that has no target variable.

Instead of predicting outcomes, it focuses on:

• Finding hidden patterns
• Grouping similar data points
• Reducing complexity in large datasets

This approach is widely used in real-world scenarios like customer segmentation, anomaly detection, and recommendation systems.

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🧠 What You’ll Learn in This Course

This course introduces you to one of the most important branches of machine learning and equips you with both theory and practical skills.

🔹 Clustering Techniques

Clustering is one of the core methods in unsupervised learning. You’ll learn how to:

• Group similar data points together
• Identify natural segments in datasets
• Apply algorithms like K-Means

This is especially useful in business applications like customer grouping and market analysis.

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🔹 Dimensionality Reduction

When working with large datasets, too many features can make analysis difficult. This course teaches you how to:

• Reduce the number of variables while preserving important information
• Use techniques like Principal Component Analysis (PCA)
• Simplify complex datasets for better visualization

These methods help make data more manageable and meaningful.

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🔹 Algorithm Selection

Not all datasets are the same — and neither are algorithms. You’ll explore:

• How to choose the right algorithm for your data
• Comparing model performance
• Understanding the strengths and limitations of different techniques

This skill is crucial for real-world problem-solving.

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🔹 Hands-On Practice

The course emphasizes practical learning by guiding you through:

• Real datasets
• Implementation of algorithms
• Best practices in unsupervised learning

This hands-on approach helps reinforce concepts and prepares you for real applications.

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🛠 Real-World Applications

Unsupervised learning is widely used across industries:

• 🛍 Customer segmentation in marketing
• 🕵️ Fraud and anomaly detection
• 🎵 Recommendation systems (like music or movies)
• 🧬 Scientific data analysis
• 📊 Market research and trend discovery

These applications show how powerful it is to extract insights without needing labeled data.

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🎯 Who Should Take This Course?

This course is ideal for:

• Aspiring data scientists
• Machine learning beginners with some Python knowledge
• Analysts looking to expand their skillset
• Anyone interested in AI and data exploration

A basic understanding of programming, statistics, and data analysis will help you get the most out of it.

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🚀 Why This Course Stands Out

What makes this course valuable is its focus on practical insights. Instead of just teaching algorithms, it helps you understand:

• When to use unsupervised learning
• How to interpret results without labels
• How to apply techniques in business and research settings

It bridges the gap between theory and real-world data challenges.

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Join Now: Unsupervised Machine Learning

📌 Final Thoughts

Unsupervised machine learning is like giving computers the ability to explore data on their own — discovering patterns that humans might miss.

As data continues to grow in volume and complexity, these skills are becoming essential for anyone working in AI, analytics, or data science.

If you want to move beyond basic machine learning and truly understand your data, this course is a powerful step forward. 🌟

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Generative Deep Learning with TensorFlow

 

Artificial Intelligence is no longer limited to analyzing data — it can now create. From generating realistic images to producing art, music, and even human-like text, generative AI is redefining what machines can do.

If you’re ready to explore this exciting frontier, Generative Deep Learning with TensorFlow is a powerful course that teaches you how to build models that don’t just learn — they generate. 🚀

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💡 What is Generative Deep Learning?

Generative deep learning focuses on building models that can create new data similar to what they’ve been trained on.

Instead of just predicting outcomes, these models can:

• Generate realistic images
• Transform styles of photos or artwork
• Create entirely new data samples
• Enhance or reconstruct noisy data

Technologies like GANs (Generative Adversarial Networks) and autoencoders are at the heart of this revolution.

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🧠 What You’ll Learn in This Course

This course dives into advanced deep learning techniques using TensorFlow, one of the most widely used frameworks for building AI systems.

🔹 Neural Style Transfer

One of the most exciting topics covered is style transfer, where you:

• Extract the content of one image
• Combine it with the artistic style of another
• Generate a completely new visual creation

This technique uses transfer learning to blend content and style into a single output.

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🔹 Autoencoders & Variational Autoencoders (VAEs)

You’ll learn how models can:

• Compress data into lower-dimensional representations
• Reconstruct original inputs
• Generate new variations of data

These models are widely used for denoising images and generating new samples.

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🔹 Generative Adversarial Networks (GANs)

GANs are one of the most powerful tools in generative AI. They work using two competing neural networks:

• A generator that creates data
• A discriminator that evaluates it

This competition results in highly realistic outputs, widely used in image generation, deepfakes, and simulations.

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🛠 Hands-On Learning with TensorFlow

The course emphasizes practical implementation using TensorFlow, allowing you to:

• Build and train generative models
• Experiment with real datasets
• Visualize outputs and improve models

TensorFlow’s flexibility and scalability make it ideal for developing deep learning applications across industries.

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🎯 Who Should Take This Course?

This course is best suited for:

• Intermediate learners in machine learning
• Developers interested in AI and deep learning
• Data scientists exploring generative models
• Anyone curious about how AI creates images and content

A basic understanding of Python and neural networks will help you follow along more effectively.

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🚀 Real-World Applications

Generative deep learning is already transforming industries:

• 🎨 AI-generated art and design
• 🎬 Image and video enhancement
• 🧬 Medical imaging and data simulation
• 🛍 Product design and prototyping
• 🎮 Game development and virtual environments

These applications highlight how generative AI is moving from research to real-world impact.

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Join Now: Generative Deep Learning with TensorFlow

📌 Final Thoughts

Generative AI represents one of the most exciting advancements in modern technology. It shifts AI from being analytical to creative, opening up endless possibilities across industries.

Generative Deep Learning with TensorFlow is more than just a course — it’s a gateway into the future of AI innovation. Whether you want to build cutting-edge applications or simply understand how machines can create, this course provides the tools and knowledge to get started.

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Python Coding challenge - Day 1122| What is the output of the following Python Code?

 

Code Explanation:

📌 1. Class A Definition

class A:

    def show(self, x=1):

        return x

✅ What happens:

A class A is created.

Method show():

Takes parameter x

Default value → 1

Returns x as it is

📌 2. Class B Definition (Inheritance)

class B(A):

✅ What happens:

B inherits from A

So B gets access to:

All methods of A

Including show()

📌 3. Method Overriding in B

def show(self, x=2):

    return super().show(x+1)

✅ Key Concepts:

🔹 1. Method Overriding

B defines its own show()

This overrides A.show()

🔹 2. Default Argument Change

In A: x = 1

In B: x = 2

👉 So calling obj.show() will use:

x = 2

🔹 3. Use of super()

super().show(x+1)

Calls parent class (A) method

Passes modified value: x + 1

📌 4. Object Creation

obj = B()

✅ What happens:

Object obj of class B is created

It will use B's methods first (due to method overriding)

📌 5. Function Call

print(obj.show())

📌 6. Step-by-Step Execution

🔹 Step 1: Call obj.show()

Since B overrides → B.show() is called

Default value:

x = 2

🔹 Step 2: Inside B.show()

return super().show(x+1)

👉 Compute:

x + 1 = 2 + 1 = 3

🔹 Step 3: Call Parent Method

A.show(3)

🔹 Step 4: Inside A.show()

return x

👉 Returns:

3

📌 7. Final Output

3

✅ Final Answer

3

Book:  500 Days Python Coding Challenges with Explanation

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Python Coding challenge - Day 1121| What is the output of the following Python Code?

 

Code Explanation:

1. Class Definition Phase

class Test:

    x = 10

✅ What happens:

A class named Test is created.

A class variable x is defined and assigned value 10.

👉 At this point:

Test.x = 10

📌 2. Constructor (__init__) Definition

def __init__(self):

    self.x = self.x + 5

✅ What happens:

This runs every time an object is created.

self.x refers to:

First tries instance variable

If not found → falls back to class variable

📌 3. Creating First Object (t1)

t1 = Test()

Step-by-step:

🔹 Step 1: Object is created

Python creates a new object t1.

🔹 Step 2: __init__ runs

self.x = self.x + 5

self.x → no instance variable yet

So Python looks at class variable → Test.x = 10

👉 Calculation:

self.x = 10 + 5 = 15

🔹 Step 3: Instance variable created

Now:

t1.x = 15   (instance variable)

📌 4. Creating Second Object (t2)

t2 = Test()

Step-by-step:

Same process repeats:

self.x → still no instance variable

Uses class variable again → 10

👉 Calculation:

self.x = 10 + 5 = 15

Now:

t2.x = 15

📌 5. Important Concept: Class vs Instance Variable

At this point:

Variable Value

Test.x 10

t1.x 15

t2.x 15

👉 Key idea:

self.x = ... creates a new instance variable

It does NOT modify the class variable

📌 6. Final Print Statement

print(t1.x, t2.x, Test.x)

Values:

t1.x → 15

t2.x → 15

Test.x → 10

✅ Final Output

15 15 10

Book:  700 Days Python Coding Challenges with Explanation

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Python Coding Challenge - Question with Answer (ID -050426)

 

Code Explanation:

🔸 1. List Creation (a)

A list [1,2] is created

Stored at some memory location

Variable a points to that location

🔸 2. List Creation (b)

Another list [1,2] is created

This is a different object in memory

Variable b points to a new location

🔸 3. Equality Check (a == b)

== compares values inside objects

Both lists have same elements [1,2]

✅ Result → True

🔸 4. Identity Check (a is b)

is compares memory location (object identity)

a and b are different objects

❌ Result → False

🔸 5. Final Output

True False

Book: 100 Python Automation Projects for Smart Developers

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🚀 Day 12/150 – Check Leap Year in Python

 

Welcome back to the 150 Days of Python series! 🎯
Today, we’re solving a real-world logic problem — checking whether a year is a leap year.

This is a great exercise to understand:

• Conditional statements
• Logical operators (and, or)
• Writing clean, readable code

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 Problem Statement

Write a Python program to check whether a given year is a Leap Year or Not.

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 Understanding Leap Year Logic

Before coding, let’s understand the rules:

A year is a leap year if:

✔ Divisible by 4
❌ But NOT divisible by 100
✔ EXCEPTION: If divisible by 400, then it is a leap year

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Year Result
2024 ✅ Leap Year
1900 ❌ Not Leap Year
2000 ✅ Leap Year

 Method 1 – Using if-elif-else

year = 2024

if (year % 4 == 0 and year % 100 != 0) or (year % 400 == 0):
    print("Leap Year")
else:
    print("Not a Leap Year")

 Code Explanation:

• year % 4 == 0
  👉 Checks if year is divisible by 4
• year % 100 != 0
  👉 Ensures it is NOT divisible by 100
• year % 400 == 0
  👉 Special case: makes century years valid
• and → both conditions must be true
• or → at least one condition must be true

👉 This full condition ensures accurate leap year calculation

 Method 2 – Taking User Input

year = int(input("Enter a year: ")) if (year % 4 == 0 and year % 100 != 0) or (year % 400 == 0): print("Leap Year") else: print("Not a Leap Year")

🔍 What’s new here?

• input() → takes user input
• int() → converts string input into integer

👉 Always convert input when dealing with numbers!

Method 3 – Using a Function

def check_leap_year(year): if (year % 4 == 0 and year % 100 != 0) or (year % 400 == 0): return "Leap Year" else: return "Not a Leap Year" print(check_leap_year(2024))

🔍 Why use a function?

• Code becomes reusable
• Cleaner structure
• Easy to test

👉 You can call this function anytime with different values

Method 4 – Using Python calendar Module

import calendar year = 2024 if calendar.isleap(year): print("Leap Year") else: print("Not a Leap Year")

🔍 Explanation:

• calendar.isleap(year)
  👉 Built-in Python function
  👉 Returns True or False
  

👉 This is the simplest and most reliable method

Important Things to Remember

✔ Always use correct logical condition
✔ Don’t forget parentheses ( ) in conditions
✔ Convert input using int()
✔ Built-in functions save time and reduce errors

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Summary

Method	Concept
if-else	Basic logic
User Input	Real-world usage
Function	Reusability
calendar module	Pythonic approach

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