|| Choose Data Science using Python Course From BIT

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|| What will I learn?

  • Core concepts like variables, data types, loops, and functions. Writing clean and efficient Python code.
  • Use Python and its libraries to collect, clean, and preprocess data.
  • Perform exploratory data analysis (EDA) and visualize data effectively.
  • Implement statistical analyses and hypothesis testing.
  • Build and evaluate machine learning models using Python.
  • Apply deep learning techniques for advanced data analysis.

|| What will I learn?

  • Core concepts like variables, data types, loops, and functions. Writing clean and efficient Python code.
  • Use Python and its libraries to collect, clean, and preprocess data.
  • Perform exploratory data analysis (EDA) and visualize data effectively.
  • Implement statistical analyses and hypothesis testing.
  • Build and evaluate machine learning models using Python.
  • Apply deep learning techniques for advanced data analysis.

|| Requirements

  • Basic programming knowledge (preferably in Python)
  • Familiarity with fundamental statistical concepts

|| Requirements

  • Basic programming knowledge (preferably in Python)
  • Familiarity with fundamental statistical concepts

|| Key Features of Comprehensive Data Science Using Python Program

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    A comprehensive Data Science using Python course equips learners with the skills and knowledge necessary to analyse and interpret complex data, leveraging Python's powerful libraries and tools. The course typically begins with an introduction to Python programming, covering fundamental concepts such as data types, control structures, functions, and object-oriented programming. Following this, the curriculum delves into essential libraries for data science, including NumPy for numerical computations, Pandas for data manipulation and analysis, and Matplotlib and Seaborn for data visualization. The course then explores data wrangling techniques, teaching students how to clean, preprocess, and transform data to prepare it for analysis. This includes handling missing values, outliers, and performing feature engineering. Learners are also introduced to exploratory data analysis (EDA) methods, enabling them to uncover patterns, trends, and insights from datasets. Machine learning is a core component of the course, with modules dedicated to supervised and unsupervised learning algorithms. Students learn to implement and evaluate models using Scikit-Learn, covering regression, classification, clustering, and dimensionality reduction techniques. Advanced topics may include deep learning with TensorFlow or Keras, natural language processing (NLP), and time series analysis.

     

    The curriculum emphasizes practical application through hands-on projects and case studies, where students work on real-world datasets to solve problems and derive actionable insights. Techniques for model selection, hyperparameter tuning, and model evaluation metrics are also covered to ensure robust and accurate predictions. In addition, the course often includes sections on big data technologies and tools such as Apache Spark for handling large datasets, as well as an introduction to databases and SQL for data retrieval and manipulation. Finally, students learn best practices for version control with Git and collaborative workflows, preparing them for professional data science roles. By the end of the course, learners are well-equipped with the technical skills and practical experience necessary to tackle data science challenges in various industries, making them valuable assets to any data-driven organization.


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    • Python Basic Building
    • Python Keywords and identifiers
    • Comments, indentation, statements
    • Variables and data types in Python
    • Standard Input and Output


    • Operators
    • Control flow: if else elif
    • Control flow: while loop
    • Control flow: for loop
    • Control flow: break & continue
    • Python Data Structures


    • Strings
    • Lists, Lists comprehension
    • Tuples, Sets
    • Dictionary, Dictionary Comprehension


    • Python Functions
    • Python Builtin Functions.
    • Python Userdefined Functions.
    • Python Recursion Functions.
    • Python Lambda Functions.
    • Python Exception Handling, 
    • Logging And Debugging


    • Exception Handling 
    • Custom Exception Handling
    • Logging With Python
    • Debugging With Python
    • Python OOPS
    • Python Objects And Classes
    • Python Constructors
    • Python Inheritance
    • Abstraction In Python
    • Polymorphism in Python
    • Encapsulation in Python


    • File Handling
    • Create 
    • Read
    • Write
    • Append

    • Introduction to NumPy
    • NumPy Array
    • Creating NumPy Array
    • Array Attributes, 
    • Array Methods
    • Array Indexing, 
    • Slicing Arrays
    • Array Operation
    • Iteration through Arrays


    • Introduction to Pandas
    • Pandas Series
    • Creating Pandas Series
    • Accessing Series Elements
    • Filtering a Series
    • Arithmetic Operations
    • Series Ranking and Sorting
    • Checking Null Values
    • Concatenate a Series


    • Data Frame Manipulation
    • Pandas Dataframe 
    • Introduction Dataframe Creation
    • Reading Data from Various Files
    • Understanding Data
    • Accessing Data Frame Elements using Indexing
    • Dataframe Sorting
    • Ranking in Dataframe
    • Dataframe Concatenation
    • Dataframe Joins
    • Dataframe Merge
    • Reshaping Dataframe
    • Pivot Tables, 
    • Cross Tables
    • Dataframe Operations


    • Checking Duplicates
    • Dropping Rows and Columns
    • Replacing Values
    • Grouping Dataframe
    • Missing Value Analysis & Treatment
    • Visualization using Matplotlib
    • Plot Styles & Settings
    • Line Plot, 
    • Multiline Plot
    • Matplotlib Subplots
    • Histogram, Boxplot
    • Pie Chart ,Scatter Plot
    • Visualization using Seaborn
    • Strip Plot ,Distribution Plot
    • Joint Plot, 
    • Violin Plot, 
    • Swarm Plot
    • Pair Plot,
    • Count Plot
    • Heatmap
    • Visualization using Plotly
    • Boxplot
    • Bubble Chart
    • Violin Plot
    • 3D Visualization


    • EDA and Feature Engineering
    • Introduction of EDA
    • Dataframe Analysis using Groupby
    • Advanced Data Explorations

    • Working with SQL Using MySQL 
    • Work Bench / SQL Server"
    • USE, DESCRIBE, 
    • SHOW TABLES
    • SELECT, INSERT
    • UPDATE & DELETE
    • CREATE TABLE
    • ALTER: ADD, MODIFY, DROP
    • DROP TABLE, TRUNCATE, DELETE
    • LIMIT, OFFSET
    • ORDER BY
    • DISTINCT
    • WHERE Clause
    • HAVING Clause
    • Logical Operators
    • Aggregate Functions: COUNT, MIN, MAX, AVG, SUM
    • GROUP BY
    • SQL Primary And Foreign Key
    • Join and Natural Join
    • Inner, Left, Right and Outer joins


    • Advance SQL
    • Subqueries/Nested Queries/Inner Queries
    • SQL Function And Stored Procedures
    • SQL Window Function
    • CTE In SQL
    • Normalization In SQL

    • Basic Math
    • Linear Algebra
    • Probability
    • Calculus
    • Develop a comprehensive understanding of coordinate geometry and linear algebra.
    • Build a strong foundation in calculus, including limits, derivatives, and integrals.

    • Descriptive Statistics
    • Sampling Techniques
    • Measure of Central Tendency
    • Measure of Dispersion
    • Skewness and Kurtosis
    • Random Variables
    • Bassells Correction Method
    • Percentiles and Quartiles
    • Five Number Summary
    • Gaussian Distribution
    • Lognormal Distribution
    • Binomial Distribution
    • Bernoulli Distribution


    • Inferential Statistics
    • Standard Normal Distribution 
    • ZTest
    • TTest
    • ChiSquare Test
    • ANOVA / FTest
    • Introduction to Hypothesis Testing
    • Null Hypothesis
    • Alternet Hypothesis


    • Probability Theory
    • What is Probability?
    • Events and Types of Events
    • Sets in Probability
    • Probability Basics using Python
    • Conditional Probability
    • Expectation and Variance

    • Introduction to Machine Learning
    • Machine Learning Modelling Flow
    • "Supervised and Unsupervised 
    • Types of Machine Learning Algorithms


    • Linear Regression using OLS
    • Introduction of Linear Regression
    • Types of Linear Regression
    • OLS Model
    • Math behind Linear Regression
    • Decomposition Variability
    • Metrics to Evaluate Model
    • Feature Scaling
    • Feature Selection
    • Regularisation Techniques
    • Ridge Regression 
    • Lasso Regression
    • ElastivNet Regression


    • Optimisation Techniques
    • What is Optimisation?
    • Gradient Descent
    • Adagrad Algorithm
    • Adam Algorithm
    • Linear Regression with SGD
    • Prerequisites


    • Introduction to Stochastic Gradient Descent (SGD)
    • Preparation for SGD
    • Workflow of SGD
    • Implementation of SGD on Linear Regression


    • Logistic Regression
    • Maximum Likelihood Estimation
    • "Logistic Regression Using Sigmoid 
    • Activation Function"
    • Performance Metrics 
    • Confusion Matrix
    • Precision, Recall, F1Score
    • Receiver Operating Characteristic Curve


    • KNN
    • Euclidean Distance
    • Manhattan Distance
    • Implementation for KNN


    • SVM
    • Support Vector Regression
    • Support Vector Classification
    • Polynomial Kernel
    • Cost Function
    • GridSerchCV


    • Decision Trees
    • Decision Tree for Classification
    • Decision Tree for Regression
    • ID3 Algorithm
    • CART Algorithm
    • Entropy
    • Gini Index
    • Information Gain
    • Decision Tree: Regression
    • Mean Square Error
    • PrePruning and PostPruning


    • Naive Bayes
    • Introduction to Bayes Theorem
    • Explanation for naive bayes


    • Ensemble Technique
    • Bagging
    • Random Forest Classifier
    • Random Forest Regression
    • Random Forest – Why & How?
    • Feature Importance
    • Advantages & Disadvantages


    • Boosting
    • Bootstrap Aggregating
    • AdaBoost
    • XgBoost
    • Project For Random Forest
    • Project Penguin Classification
    • Project Texi Prediction


    • Kmeans Clustering
    • Prerequisites
    • Cluster Analysis
    • Kmeans
    • Implementation of Kmeans
    • Pros and Cons of Kmeans
    • Application of Kmeans
    • Elbow Method
    • Model building for Kmeans Clustering


    • Hierarchical Clustering
    • Types of Hierarchical Clustering
    • Dendrogram
    • Pros and Cons of Hierarchical Clustering
    • Model building for Hierarchical Clustering


    • DBSCAN Clustering
    • Introduction for DBSCAN Clustering
    • implementation of DBSCAN


    • Principal Components Analysis
    • Prerequisites
    • Introduction to PCA
    • Principal Component
    • Implementation of PCA
    • Case study
    • Applications of PCA
    • Project on PCA


    • Time Series Modelling
    • Understand Time Series Data
    • Visualising Time Series Components
    • Exponential Smoothing
    • ARIMA
    • SARIMA
    • SARIMAX
    • Project on Forecasting
    • Cloud Basics
    • ML on Cloud

    Developing a Data Science project using Python involves several stages, from problem identification to model deployment. Here is a comprehensive guide outlining the process:

    • Problem Definition:
    • Objective: Clearly define the problem you aim to solve or the question you seek to answer.
    • Scope: Determine the scope of the project, including the expected outcomes and success criteria.


    • Data Collection:
    • Sources: Identify and gather relevant data from various sources such as databases, APIs, web scraping, or publicly available datasets.
    • Quality: Ensure the data collected is reliable, accurate, and sufficient for analysis.


    • Data Cleaning:
    • Handling Missing Values: Deal with missing data through imputation or removal.
    • Data Types: Correct data types for each feature (e.g., integers, floats, categories).
    • Outliers: Identify and handle outliers that may skew the results.
    • Normalization/Standardization: Scale the data if necessary, especially for algorithms sensitive to the magnitude of data.


    • Exploratory Data Analysis (EDA):
    • Visualization: Use plots (histograms, scatter plots, box plots) to understand data distribution and relationships.
    • Summary Statistics: Compute mean, median, mode, standard deviation, and other relevant statistics.
    • Insights: Identify patterns, trends, and anomalies within the data.


    • Feature Engineering:
    • Creation: Develop new features from existing data that can improve model performance.
    • Transformation: Apply transformations (logarithmic, polynomial) to features to meet model assumptions.
    • Selection: Select the most relevant features using techniques like correlation analysis, and feature importance scores.


    • Model Selection:
    • Algorithm Choice: Choose appropriate algorithms based on the problem type (e.g., regression, classification, clustering).
    • Libraries: Utilize Python libraries such as Scikit-learn, TensorFlow, Keras, or PyTorch for model implementation.


    • Model Training:
    • Splitting Data: Divide data into training and testing sets, and possibly a validation set.
    • Training: Fit the model to the training data.
    • Hyperparameter Tuning: Optimize model parameters using techniques such as grid search or random search.


    • Model Evaluation:
    • Metrics: Use relevant evaluation metrics (e.g., accuracy, precision, recall, F1 score, RMSE) to assess model performance.
    • Validation: Validate the model using cross-validation or a separate validation set to ensure generalizability.
    • Model Deployment:
    • Implementation: Deploy the model into a production environment using tools like Flask, Django, or FastAPI.
    • Integration: Integrate the model with existing systems or applications.
    • Monitoring: Set up monitoring to track the model’s performance over time and detect any degradation.


    • Documentation and Reporting:
    • Documentation: Document the entire project, including the data sources, methodologies, models used, and the results obtained.
    • Reporting: Prepare comprehensive reports or dashboards to communicate findings and insights to stakeholders.


    • Maintenance and Updates:
    • Retraining: Periodically retrain the model with new data to maintain accuracy and relevance.
    • Improvements: Continuously improve the model based on feedback and performance monitoring.

    By following this structured process, you can develop robust and reliable data science projects using Python that provide valuable insights and solve complex problems effectively.

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||  Become An Expert In Data Science with Python

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|| Why a Career in Data Science Using Python is a Good Option in India

  • High Demand for Data Scientists:
  • The demand for data scientists in India is growing rapidly as more companies recognize the value of data-driven decision-making.
  • Industries such as finance, healthcare, e-commerce, and technology are heavily investing in data science capabilities, leading to a surge in job opportunities.


  • Python as a Preferred Language:
  • Python is widly used in data science due to its simplicity, readability, and extensive library support.
  • Libraries like Pandas, NumPy, Scikit-learn, TensorFlow, and PyTorch make Python an ideal choice for data analysis, machine learning, and deep learning tasks.


  • Attractive Salary Packages:
  • Data scientists in India enjoy competitive salaries that are significantly higher than many other professions.
  • As per industry reports, experienced data scientists can earn lucrative packages, making it a financially rewarding career.


  • Diverse Career Opportunities:
  • A career in data science offers a wide range of roles including Data Analyst, Machine Learning Engineer, Data Engineer, Business Analyst, and Research Scientist.
  • The versatility of the field allows professionals to work in various domains and industries.


  • Contribution to Business Success:
  • Data scientists play a crucial role in helping businesses make informed decisions by analyzing trends, predicting outcomes, and providing actionable insights.
  • Their work directly impacts business strategies, efficiency, and profitability.


  • Growing Ecosystem:
  • India has a rapidly growing ecosystem of startups and established companies that are investing heavily in data science and AI.
  • This creates a vibrant job market with ample opportunities for growth and innovation.


  • Continuous Learning and Development:
  • The field of data science is dynamic, offering continuous learning opportunities through new tools, techniques, and research.
  • Professionals can keep their skills updated and stay relevant in the industry.


  • Supportive Community and Resources:
  • There is a strong community of data scientists and Python developers in India who actively share knowledge and support each other through forums, conferences, and meetups.
  • Numerous online resources, courses, and certifications are available to help aspiring data scientists build and enhance their skills.


  • Government and Industry Initiatives:
  • The Indian government and various industry bodies are promoting data science and AI through initiatives, policies, and funding.
  • This support boosts the growth of the field and creates more opportunities for professionals.


  • Global Opportunities:
  • Proficiency in data science and Python opens up global career opportunities, allowing professionals to work with international companies or even relocate abroad for better prospects.



In summary, a career in data science using Python in India is a promising option due to the high demand, attractive salaries, diverse opportunities, and the ability to make significant contributions to business success. The continuous evolution of the field and the supportive ecosystem further enhance its appeal.

|| Career & Opportunities after Data Science with Python

Here are some prominent career options and opportunities:

  • Data Scientist
  • Role: Analysing large datasets to extract actionable insights, building predictive models, and helping organizations make data driven decisions.
  • Opportunities: Available across sectors such as finance, healthcare, ecommerce, technology, and more. Companies like IBM, Microsoft, and local startups are constantly seeking skilled data scientists.
  • Data Analyst
  • Role: Interpreting data, generating reports, and visualizing data to help organizations understand trends and patterns.
  • Opportunities: Every industry requires data analysts, from retail and marketing to finance and government.
  • Machine Learning Engineer
  • Role: Designing and implementing machine learning models, working on deep learning, natural language processing (NLP), and computer vision projects.
  • Opportunities: Tech companies like Google, Facebook, and Amazon, as well as AI focused startups, are major employers.
  • Business Intelligence (BI) Developer
  • Role: Developing strategies to assist business decisions, creating dashboards, and providing insights from business data.
  • Opportunities: Companies in finance, marketing, sales, and other business domains require BI developers to leverage data for strategic planning.
  • Data Engineer
  • Role: Building and maintaining data pipelines, ensuring data quality, and supporting data infrastructure.
  • Opportunities: Essential in companies dealing with big data, such as tech firms, financial institutions, and telecommunication companies.
  • Data Architect
  • Role: Designing and managing the data architecture of an organization, ensuring data integration and security.
  • Opportunities: Large enterprises and cloud-based companies often need data architects to handle complex data systems.
  • Research Scientist
  • Role: Conducting advanced research in data science, developing new algorithms and models.
  • Opportunities: Academic institutions, research labs, and companies like IBM Research and Google Research offer roles for research scientists.
  • Big Data Specialist
  • Role: Handling, processing, and analysing large datasets using big data technologies like Hadoop and Spark.
  • Opportunities: Companies dealing with massive data, such as financial services, healthcare, and internet services, often hire big data specialists.

|| Data Science with Python Scope in India

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|| Companies Using Data Science with Python

  • Google
  • Uses Python for data analysis, machine learning models, and AI projects. TensorFlow, a popular machine learning framework developed by Google, supports Python.
  • Facebook (Meta)
  • Utilizes Python for various data science tasks, including user behaviour analysis, ad targeting, and recommendation systems.
  • Amazon
  • Employs Python for data-driven decisions, customer behaviour analysis, and optimizing logistics and supply chain operations.
  • Microsoft
  • Uses Python for Azure Machine Learning services, data analysis, and AI research. Python is integrated with many Microsoft products and services.
  • Apple
  • Utilizes Python for machine learning, data analysis, and various AI-driven features in its products and services.
  • JPMorgan Chase
  • Uses Python for quantitative analysis, risk management, and trading algorithms.
  • Goldman Sachs
  • Employs Python for data analysis, financial modelling, and machine learning applications in finance.
  • American Express
  • Uses Python for fraud detection, customer analytics, and improving customer experiences.
  • eBay
  • Utilizes Python for data analysis, recommendation systems, and personalized user experiences.
  • Alibaba
  • Employs Python for customer behaviour analysis, inventory management, and optimizing logistics.
  • Pfizer
  • Uses Python for data analysis in clinical trials, drug discovery, and patient data management.
  • Roche
  • Employs Python for genomic data analysis, personalized medicine, and clinical research.
  • Walmart
  • Uses Python for demand forecasting, inventory optimization, and customer behaviour analysis.
  • Target
  • Utilizes Python for data-driven marketing, supply chain optimization, and sales analysis.
  • Verizon
  • Employs Python for network optimization, customer data analysis, and predictive maintenance.
  • AT&T
  • Uses Python for data analytics, improving customer services, and network management.
  • Netflix
  • Uses Python for recommendation systems, content personalization, and data-driven decision-making.
  • Spotify
  • Employs Python for music recommendation algorithms, user behaviour analysis, and improving user experiences.
  • Airbnb
  • Utilizes Python for pricing algorithms, recommendation systems, and data analysis.
  • Uber
  • Uses Python for route optimization, demand forecasting, and dynamic pricing models.
  • Lyft
  • Employs Python for data-driven decision-making, ride optimization, and user behaviour analysis.
  • IBM
  • Uses Python for data analytics, machine learning solutions, and AI research.
  • Tesla
  • Utilizes Python for autonomous driving algorithms, energy management, and data analysis.

These companies use Python in their data science workflows due to its ease of use, powerful libraries, and strong community support. The language's flexibility allows for rapid prototyping and implementation of complex data-driven solutions, making it a preferred choice across industries.

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|| Salary after Data Science with Python in India

Here is a general overview of the expected salary ranges for data science professionals with Python skills at different career stages:


  • Fresher (0-2 years of experience)
  • Salary Range: ₹5,85,000 per annum
  • Typical Roles: Junior Data Scientist, Data Analyst, Machine Learning Intern
  • Influencing Factors: Academic background, internship experience, skill proficiency, location, and company reputation.
  • Intermediate (2-5 years of experience)
  • Salary Range: ₹13,00,000 per annum
  • Typical Roles: Data Scientist, Machine Learning Engineer, Senior Data Analyst
  • Influencing Factors: Level of expertise, project experience, certifications, advanced skills in machine learning and data engineering, location, and company size.
  • Experienced (7+ years of experience)
  • Salary Range: ₹20,40,000 + per annum
  • Typical Roles: Senior Data Scientist, Lead Data Scientist, Data Science Manager, AI Specialist
  • Influencing Factors: Leadership experience, domain expertise, contributions to significant projects, published research, location, and the scale of the company’s operations.
  • Influencing Factors Across All Levels
  • Location: Salaries can vary significantly depending on the city. Major tech hubs like Bengaluru, Mumbai, Hyderabad, and Gurgaon typically offer higher salaries compared to other cities.
  • Company Type: Large multinational companies and well-funded startups often offer higher salaries compared to smaller companies or those in less lucrative industries.
  • Industry: Finance, technology, e-commerce, and healthcare sectors tend to offer higher compensation for data science roles.
  • Additional Benefits

Many companies also provide additional benefits such as performance bonuses, stock options, health insurance, and opportunities for professional development, which can significantly enhance the overall compensation package.

The demand for skilled data science professionals in India is high, and with the right skills and experience, individuals can expect lucrative career opportunities. Continuous learning and staying updated with the latest trends in data science and Python can further enhance career prospects and salary potential.

|| Job Roles & Salary 

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|| Data Science with Python offers abundant placement opportunities in India 

Data Science with Python offers abundant placement opportunities in India due to the increasing demand for skilled data scientists and analysts across various industries. With the country's growing emphasis on digital transformation and data-driven decision-making, organizations in sectors such as IT, finance, healthcare, e-commerce, and telecommunications are actively seeking professionals proficient in Python for data science. Data scientists proficient in Python are sought after for their ability to manipulate and analyze large datasets efficiently, build predictive models, and derive actionable insights to drive business growth and innovation. Furthermore, India's thriving startup ecosystem and the emergence of data-centric companies have created additional avenues for data science professionals to contribute their expertise. With competitive salaries, attractive perks, and opportunities for career advancement, data science roles in India offer promising prospects for individuals with skills in Python and a strong foundation in data analysis and machine learning techniques. As the demand for data-driven solutions continues to rise, the placement opportunities for Data Science with Python professionals in India are expected to expand further, making it an attractive career path for aspiring data enthusiasts.

|| Empowering Your Career Transition From Learning To Leading

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Megha Bhatt

Megha Bhatt, an ML Engineer at Cognizant, demonstrates prowess by leveraging unique tools such as Alteryx for advanced data blending and Google BigQuery for large-scale data analytics. Her adept use of these cutting-edge tools contributes to innovative and efficient data analysis.

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Darshna Dave

Darshna Dave, excelling as a Data Analyst at Deepak Foundation post-IT institute, showcases expertise in unique tools such as KNIME for data analytics workflows, Apache Superset for interactive data visualization, and RapidMiner for advanced predictive analytics.

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Shubham Ambike

Shubham Ambike, excelling as a Digital MIS Executive at Alois post-Business Analytics course, showcases expertise in tools like Microsoft Excel, Power BI, and Google Analytics. His adept use of these tools contributes to efficient data management and analysis. Congratulations on his placement.

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Mehul Sirohi

Mehul Sirohi, excelling as a Data Associate at Numerator post learning Data Analytics course, skillfully employs unique tools such as Alteryx for data blending, Jupyter Notebooks for interactive data analysis, and Looker for intuitive data visualization. His mastery of these advanced tools contributes to Numerator's data processing success.

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Pratik Shah

Pratik Shah excels in Data Processing at NielsenIQ after studying a Full-Stack Data science course from BIT. Proficient in tools like Excel, SQL, and Python, Pratik ensures precise and efficient data handling. Congratulations on his placement, which showcases his expertise in essential data processing tools.

|| Get  Data science using Python Certification

Three easy steps will unlock your Data science using Python Certification:


  • Finish the online / offline course of Data science using Python Course and the Assignment
  • Take on and successfully complete a number of industry-based Projects
  • Pass the Data science using Python certification exam


The certificate for this Data science using Python course will be sent to you through our learning management system, where you can also download it. Add  a link to your certificate to your CV or LinkedIn profile.

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|| Frequently asked question

A Data Science using Python Course is designed to teach participants the essential concepts, techniques, and tools for performing data analysis, manipulation, visualization, and machine learning using the Python programming language and relevant libraries such as NumPy, Pandas, Matplotlib, and Scikit-learn.

This course is suitable for individuals interested in pursuing a career in data science, machine learning, or related fields. It caters to beginners with little to no programming experience as well as professionals looking to enhance their Python skills for data analysis and modeling.

Most reputable Data Science using Python courses offer a certificate of completion that can be shared on your resume or LinkedIn profile. However, it's essential to check the accreditation and recognition of the issuing institution before enrolling.

Yes, many Data Science using Python courses are available online, offering flexibility in terms of timing and location. Online courses often include video lectures, interactive coding exercises, and discussion forums to facilitate learning.

BIT offers a wide range of programs catering to various interests and career paths. These may include academic courses, vocational training, professional development, and more. Please visit our website – www.bitbaroda.com or contact our admissions office at M.9328994901 for a complete list of programs.

For any questions or assistance regarding the enrolment process, admissions requirements, or program details, please don't hesitate to reach out to our friendly admissions team. Please visit our website – www.bitbaroda.com or contact our admissions office at M.9328994901 for a complete list of programs or Visit Our Centers – Sayajigunj, Waghodia Road, Manjalpur in Vadodara, Anand, Nadiad, Ahmedabad

BIT prides itself on providing high-quality education, personalized attention, and hands-on learning experiences. Our dedicated faculty, state-of-the-art facilities, industry partnerships, and commitment to student success make us a preferred choice for students seeking a rewarding educational journey.

BIT committed to supporting students throughout their academic journey. We offer a range of support services, including academic advising, tutoring, career counselling, and wellness resources. Our goal is to ensure that every student has the tools and support they need to succeed.

Typically, a basic understanding of programming concepts is beneficial. Knowledge of statistics, linear algebra, and calculus can also be helpful for more advanced topics.

While a background in statistics can be advantageous, many courses start with basic statistical concepts and gradually build up to more advanced techniques. Some courses may provide supplementary materials to help you understand statistical concepts.

A typical course covers: Data manipulation and cleaning using Pandas. Data visualization using Matplotlib and Seaborn. Statistical analysis and hypothesis testing. Machine learning algorithms such as regression, classification, clustering, and dimensionality reduction. Introduction to deep learning concepts if applicable. Real-world applications and case studies.
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