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Courses

Explore our wide range of courses, filtered by age, program type, and exam profile. Whether you’re interested in verbal or quantitative subjects, we have something to challenge and inspire you.

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    • Adventures in Science and Engineering

    • In Person/On Campus

    In this dynamic and interactive course, students embark on an exciting journey to explore the fascinating worlds of Science and Engineering. Through a combined approach involving engaging discussions, hands-on experiments, and creative projects, students will develop a deep understanding of fundamental scientific principles and engineering concepts and how they contribute to solving real-world problems and improving our everyday lives.


    They will discover the scientific method and engineering design process, gaining valuable skills in critical thinking, problem solving and collaboration during experimentation. From exploring the density of materials to constructing their own electrical circuits, students will have the opportunity to apply their knowledge in a series of entertaining and interactive experiments and projects.They will build aluminum foil boats to explore buoyancy,  construct various motorized vehicles, design small gliders to investigate aerodynamics, and explore the fascinating world of stating electricity. Throughout the course, emphasis will be placed on promoting creativity, curiosity, and collaboration, as students discover the wonders of science and engineering and develop a sense of excitement for the endless possibilities that lie ahead.


    Learning Objectives:

    • Describe the scientific method and the engineering design process and explain how they are used to solve problems and develop solutions.
    • Understand the fundamental principles of density, buoyancy, dynamics, energy, work, electricity, power and motion including Newton’s laws and their application in engineering projects.
    • Design and conduct experiments to investigate scientific phenomena and engineering concepts and analyze experimental data to draw conclusions based on evidence and observations.
    • Construct and test creative and innovative models, prototypes, and devices to solve engineering challenges such as mousetrap cars, bridges, towers, hydraulic cranes and many more.
    • Effective collaboration with peers to communicate scientific ideas and engineering solutions clearly and effectively through written and oral presentations.
    • Summer, Weekend
    • SCAT Quantitative or STB

    Ancient Architecture & Hidden Math

    • In Person/On Campus

    When was mathematical thinking born? What knowledge did architects have 4 thousand years ago? How were the pyramids built? What is the “golden” ratio? Are there perfect numbers? Where is Math hiding in the Parthenon? Why is the seating area in ancient Greek theaters in a circular shape?

    In this course, we will analyze the use of Mathematics in Architecture over the centuries and its use by different cultures. Starting from the beginning of counting and geometry, we will discover how the ancient architects used their mathematical knowledge in each period. We will travel to Ancient Egypt, learn about the cultural development of the Sumerians and the Babylonians of Mesopotamia and discover the great contribution of Greek mathematics in Ancient Greece.

    Students will have the opportunity to learn about monumental construction achievements of the ancient civilizations and the application of mathematics in them, to find hidden “golden” numbers, to create their own constructions and to discover how mathematics are manifested in the impressive constructions of the Egyptians, the Mesopotamians and the Ancient Greeks.

    • Weekend
    • SCAT Quantitative or STB

    Be a Scientist!

    • In Person/On Campus

    What do paleontologists work on? How do meteorologists predict the weather? How do molecular biologists isolate DNA? In this interactive course, students live and work as different researchers every day and become familiar with the scientific method. Scientific fields such as Astrophysics, Paleontology, Meteorology, Oceanology, Genetics and Health Sciences, as well as environmental concepts such as water and energy resources, are presented in a fun and experiential way.

    The young scientists put on the chemist’s lab coat and perform an electrolysis experiment to harness hydrogen. They construct the human cell with simple materials, isolate DNA, delve into different medical methods, apply water purification technology as environmental engineers, make their own crystals as geologists, and tend their own crops as agronomists.

    They embark through complex engineering concepts by designing and constructing their own pendulum. Through experiments, discussions and group work students gain knowledge of different scientific fields but also a deeper understanding of what it really means to be a scientist.

    Learning Objectives

    • Design and implement an original experiment using all steps of the scientific method.
    • Collect, organize and analyze experimental data and observations and present the results.
    • Select, research and compare three scientific disciplines and describe their similarities and differences.
    • Summer, Weekend
    • SCAT Quantitative or STB, SCAT Verbal

    Bioengineering: A Glance at the Future of Medicine

    • Online

    Research advancements in tissue engineering and drug delivery are revolutionizing medicine. Stem cells, nanotechnology, artificial intelligence and biomaterial research have enabled us to envision methods that may radically change how we treat patients in the future.

    In this course students are introduced to bioengineering, the discipline that applies the engineering principles of design and analysis to biological systems and biomedical technologies.

    Students learn about fundamentals of both biology and engineering, as anatomy and physiology concepts are presented along with the engineering design cycle.  

    Using online virtual labs and applications students learn about fundamentals of biomedicine, the field of bioengineering and novel approaches to medicine. They apply their knowledge working in groups in order to complete the course’s final team project “Rescue Helicopter”, proposing a design for the new Red Cross Helicopter Ambulance, to save people from remote parts of Greece, provide life support and transfer the patients to the nearest hospital.


    Learning objectives

    • Understand the interdisciplinary nature of bioengineering, incorporating principles of biology, engineering, and medicine and its driving innovations, such as tissue engineering, drug delivery, stem cells, nanotechnology, artificial intelligence, and biomaterials.
    • Master fundamental concepts of biology and engineering, including anatomy, physiology, and the engineering design cycle and apply them to solve medical problems effectively.
    • Solve practical scenarios and real-world challenges, through virtual labs and applications, to enhance practical skills and the ability to implement novel approaches to medicine.
    • Develop teamwork and project management skills. 
    • Winter
    • SCAT Quantitative or STB

    Biomedical Sciences: Unraveling the Mysteries of the Human Body

    • Online

    The journey begins with an introduction to the world of Cell Biology and Microbiology, where students study the structure of cells and the basic categories of pathogenic microorganisms, focusing on the factors that disrupt the homeostasis of our body. The quest for knowledge continues with the organs and the organ systems of the human body. Students explore the complex anatomical and physiological mechanisms that govern the human body, come into contact with and potentially identify important diseases, while exploring the subject matter of basic medical specialties.

    • Winter
    • SCAT Quantitative or STB, SCAT Verbal

    Business Economics and Sustainability’

    • In Person/On Campus

    CTY’s ‘Microeconomics and Sustainability’ course, invites students to familiarize themselves with the basic principles of Microeconomics and discover the close relationship between Microeconomics and Sustainable Development. The purpose of the course is to provide an understanding of economic concepts and theories, while highlighting their practical application in everyday life. The course enables participants to develop their critical thinking skills through the analysis, evaluation and questioning of current practices, and ultimately, proposing applicable solutions, with the principles of Sustainable Development in mind. The main goal of the course is to develop skills that will allow students to appreciate economic issues in their proper context and to address them in a multidimensional, modern way that promotes Sustainability, while highlighting ways of optimal management of our finite economic resources.

    Learning Objectives:

    • Analyze the Impact of Market Structures on Sustainable Practices: Students will evaluate how different market structures (e.g., perfect competition, monopoly, oligopoly) influence the adoption of sustainable practices by firms. This includes understanding how market power and competition affect environmental outcomes and resource allocation.
    • Assess the Role of Government Policies in Promoting Sustainable Economic Behavior: Students will examine various microeconomic policies (e.g., taxes, subsidies, regulations) and their effectiveness in promoting sustainability. They will learn to analyze the economic incentives created by these policies and their impact on both consumer and producer behavior towards sustainable practices.
    • Evaluate the Economic Viability of Sustainable Business Models: Students will explore the economic principles underlying sustainable business models, such as circular economy and green entrepreneurship. They will assess the cost-benefit analysis of sustainable practices and their long-term economic impacts on both businesses and society.

    • Summer, Weekend
    • SCAT Quantitative or STB, SCAT Verbal

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