Instructor Led Training

Starting out with Programming Logic & Design

Instructor-led training (ILT) is a traditional form of education that involves a skilled instructor leading a classroom or virtual session to deliver training to learners.

Limited seat available, enroll before date July 29, 2024.
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why should buy instructor led course?

Investing in an instructor-led course offers several advantages that can greatly enhance your learning experience. One of the key benefits is the opportunity to receive expert guidance from seasoned professionals who possess extensive knowledge and expertise in the subject matter. These instructors can offer valuable insights, address your queries, and provide guidance tailored to your specific needs. Additionally, instructor-led courses follow a well-structured curriculum, ensuring a comprehensive learning journey that covers all the essential topics. This structured approach enables you to progress in a logical and organized manner, building a strong foundation of knowledge. Moreover, instructor-led courses often provide personalized feedback, allowing you to receive individualized assessments and guidance to improve your understanding and skills.

Professional Certificate.

Obtaining certification of completion is a significant benefit that comes with many instructor-led courses. This certification serves as formal recognition of your successful completion of the course and showcases your commitment to learning and professional development. It can be a valuable addition to your resume or portfolio, highlighting your expertise and dedication in a specific field or skill set. Certification demonstrates to employers, clients, or colleagues that you have acquired the necessary knowledge and skills to perform tasks effectively. It can enhance your credibility and open doors to new career opportunities or advancements. Moreover, certification provides a sense of accomplishment and satisfaction, validating the time and effort you invested in the course. Ultimately, the certification of completion offers tangible evidence of your commitment to continuous learning and professional growth, making it a worthwhile asset in today's competitive job market.

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Estimated time

4 Months

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Enroll by

July 29, 2024

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Skills acquired

No degree or skills required.

How Does It Work?

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Zoom meeting with student twice a week.

As an educator, I have implemented a structured learning approach by conducting Zoom meetings with my students twice a week. This interactive platform has become an invaluable tool for fostering meaningful connections and facilitating engaging discussions in a virtual classroom setting.

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AI Tutor support.

Mentoring support plays a crucial role in guiding individuals towards personal and professional growth. By offering mentorship, I provide a safe and supportive space for individuals to explore their goals, challenges, and aspirations.

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Assignments and Grade.

Assignments and grading are essential components of the educational process, allowing students to demonstrate their understanding of concepts and skills while providing teachers with a means to assess their progress. Assignments are designed to reinforce learning, encourage critical thinking, and promote independent problem-solving.

About This Course

Get hands-on experience in complex programming with the Programming Logic & Design course and lab. The course provides a vivid introduction to current programming languages with clear and approachable code snippets and programs for better understanding. The course and lab offer easy-to-understand pseudocode, flowcharts, and other tools. It illustrates how to design the logic of programs with a firm emphasis on logical thought processes and models. Programming Logic & Design uses a language-independent approach to teach programming concepts and problem-solving skills.

Skills You’ll Get

Get the support you need. Enroll in our Instructor-Led Course.

Hands-On Labs

34+ LiveLab | 9+ Video tutorials | 45+ Minutes

Video Lessons

35+ Videos | 04:16+ Hours

Lesson Plan

1

Preface

  • Changes in the Fifth Edition
  • Brief Overview of Each Lesson
  • Organization of the Text
  • Features of the Text
2

Introduction to Computers and Programming

  • Introduction
  • Hardware
  • How Computers Store Data
  • How a Program Works
  • Types of Software
  • Review Questions
3

Input, Processing, and Output

  • Designing a Program
  • Output, Input, and Variables
  • Variable Assignment and Calculations
  • Variable Declarations and Data Types
  • Named Constants
  • Hand Tracing a Program
  • Documenting a Program
  • Designing Your First Program
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Debugging Exercises
  • Programming Exercises
4

Modules

  • Introduction to Modules
  • Defining and Calling a Module
  • Local Variables
  • Passing Arguments to Modules
  • Global Variables and Global Constants
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Debugging Exercises
  • Programming Exercises
5

Decision Structures and Boolean Logic

  • Introduction to Decision Structures
  • Dual Alternative Decision Structures
  • Comparing Strings
  • Nested Decision Structures
  • The Case Structure
  • Logical Operators
  • Boolean Variables
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Debugging Exercises
  • Programming Exercises
6

Repetition Structures

  • Introduction to Repetition Structures
  • Condition-Controlled Loops: While, Do-While, and Do-Until
  • Count-Controlled Loops and the For Statement
  • Calculating a Running Total
  • Sentinels
  • Nested Loops
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Debugging Exercises
  • Programming Exercises
7

Functions

  • Introduction to Functions: Generating Random Numbers
  • Writing Your Own Functions
  • More Library Functions
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Debugging Exercises
  • Programming Exercises
8

Input Validation

  • Garbage In, Garbage Out
  • The Input Validation Loop
  • Defensive Programming
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Debugging Exercises
  • Programming Exercises
9

Arrays

  • Array Basics
  • Sequentially Searching an Array
  • Processing the Contents of an Array
  • Parallel Arrays
  • Two-Dimensional Arrays
  • Arrays of Three or More Dimensions
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Debugging Exercises
  • Programming Exercises
10

Sorting and Searching Arrays

  • The Bubble Sort Algorithm
  • The Selection Sort Algorithm
  • The Insertion Sort Algorithm
  • The Binary Search Algorithm
  • Review Questions
  • Debugging Exercise
  • Programming Exercises
11

Files

  • Introduction to File Input and Output
  • Using Loops to Process Files
  • Using Files and Arrays
  • Processing Records
  • Control Break Logic
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Debugging Exercises
  • Programming Exercises
12

Menu-Driven Programs

  • Introduction to Menu-Driven Programs
  • Modularizing a Menu-Driven Program
  • Using a Loop to Repeat the Menu
  • Multiple-Level Menus
  • Focus on Languages: Java, Python, and C++
  • Review Questions
13

Text Processing

  • Introduction
  • Character-by-Character Text Processing
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Debugging Exercises
  • Programming Exercises
14

Recursion

  • Introduction to Recursion
  • Problem Solving with Recursion
  • Examples of Recursive Algorithms
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Programming Exercises
15

Object-Oriented Programming

  • Procedural and Object-Oriented Programming
  • Classes
  • Using the Unified Modeling Language to Design Classes
  • Finding the Classes and Their Responsibilities in a Problem
  • Inheritance
  • Polymorphism
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Programming Exercises
16

GUI Applications and Event-Driven Programming

  • Graphical User Interfaces
  • Designing the User Interface for a GUI Program
  • Writing Event Handlers
  • Designing Apps For Mobile Devices
  • Focus on Languages: Java, Python, and C++
  • Review Questions
  • Programming Exercises

Appendix A: ASCII/Unicode Characters

Appendix B: Flowchart Symbols

Appendix C: Pseudocode Reference

Appendix D: Converting Decimal Numbers to Binary

Frequently asked questions

Instructor Led Training refers to a traditional form of education where a knowledgeable instructor leads a classroom or virtual session to deliver training to learners. It involves direct interaction between the instructor and participants, allowing for real-time feedback and guidance.

ILT offers numerous benefits, including personalized attention, immediate clarification of doubts, interactive discussions, and hands-on learning experiences. It promotes engagement, fosters collaboration among learners, and enables participants to receive expert guidance from the instructor.

Unlike e-learning or self-paced courses, ILT provides a structured and interactive learning environment. It allows participants to engage with the instructor and fellow learners, receive real-time feedback, and benefit from the instructor's expertise. ILT offers the opportunity for immediate clarification and fosters dynamic interactions.

Yes, ILT can be conducted virtually using web conferencing tools or virtual classroom platforms. This allows participants from different locations to join the training session and interact with the instructor and peers through video conferencing, chat features, and shared documents.

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