Discover the power of C#, a language widely used in game development, desktop applications, and enterprise solutions. This class will introduce you to the fundamentals of object-oriented programming and application building. What You’ll Learn: C# syntax and basics: Variables, loops, and conditions. Introduction to IDEs: Working with Visual Studio and debugging tools. Object-oriented programming (OOP): Classes, objects, and methods. An overview of building basic applications using C#.

Take a deeper dive into programming with C++, a language known for its speed and versatility. This class focuses on understanding how code interacts closely with the hardware and teaches the principles of efficient and effective programming. What You’ll Learn: C++ basics: Syntax, variables, data types, and operators. Setting up C++ IDEs: Compilers and linkers. How C++ code is compiled, linked, and executed. Memory management and pointers: An introduction to dynamic memory.

This course is tailored for IGCSE Computer Science and ICT students who want to master all the key topics in their curriculum. With a focus on practical programming skills, theoretical computer science concepts, and hands-on problem-solving, this class will guide you through the essential topics covered in the IGCSE syllabus. Learn the fundamentals of data representation, hardware and software, databases, and Boolean logic, and then build on those concepts with programming and algorithm design. Gain a deep understanding of the inner workings of computers and their applications in real-world scenarios. By the end of this course, you will have a solid understanding of key computer science concepts and the practical skills to succeed in your IGCSE exams and beyond. What You’ll Learn: Data Representation: Learn how computers represent and process data, including binary, hexadecimal, and conversions between number systems. Data Transmission: Understand how data is transmitted over networks, focusing on packet switching, USB, and data packets. Hardware & Software: Gain a foundational understanding of computer hardware components and the role of software in running programs. Boolean Logic: Explore logic gates, truth tables, and Boolean expressions, and apply them to solve complex problems. Algorithm Design: Learn to design algorithms and solve problems using effective computational methods. Programming: Master the basics of programming with hands-on coding in Python, C++, and C#. Databases: Understand database structures, SQL queries, and primary keys. Build single-table databases and learn data management techniques.

Achieve success in your AP Physics journey with a comprehensive class tailored to cover the full AP Physics syllabus. From mechanics to electromagnetism, this class equips you with the knowledge, problem-solving skills, and confidence to ace your exams. Perfect for both AP Physics 1 and AP Physics 2 students! What You’ll Learn: Mechanics: Kinematics, Newton's Laws, Work, Energy, Power, Momentum, Circular Motion, and Gravitation. Thermal Physics: Temperature, Heat, and the Laws of Thermodynamics. Electricity and Magnetism: Electrostatics, Electric Circuits, Magnetic Fields, and Electromagnetic Induction. Waves and Optics: Wave properties, Sound, Light, Reflection, and Refraction. Modern Physics: Quantum phenomena, Nuclear Physics, and Atomic Models. Key Features: Exam-Focused Prep: Solve past papers and practice questions from official AP exams. Real-World Applications: Understand how physics is used in technology and engineering. Interactive Learning: Hands-on experiments, problem-solving sessions, and discussions.

This class focuses on the Cambridge IGCSE curriculum, helping you develop a strong understanding of key topics and preparing you for success in your exams. What You’ll Learn: Mechanics: Scalars, vectors, and resultant forces. Kinematics: Graphical representation of motion. Forces: Friction, air resistance, and terminal velocity. Pressure in fluids and solids. Moments and equilibrium. Thermal Physics: Kinetic theory of matter. Gas laws: Boyle’s law and Charles’s law. Internal energy and heat capacity. Thermal expansion and its applications. Waves and Optics: Properties of sound and light. Reflection, refraction, and total internal reflection. Lenses and image formation. Electromagnetic spectrum: Uses and characteristics. Electricity and Magnetism: Static electricity and its applications. Series and parallel circuits: Energy and power calculations. Electromagnetic forces and induction. Nuclear Physics: Atomic structure and radioactivity. Half-life and safety precautions. Applications of radioactivity in medicine and industry. ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ Strategies for answering structured and multiple-choice questions. Exam-style questions and tips for Cambridge assessments.