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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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    • 3D Printing Wonders!

    • Online

    What is 3D printing? What are the principles and main applications of this amazing technology?

    Learn more about a trend that is increasingly influencing large parts of the global material innovation industry and product fabrication.

    Imagine, Design, Create!

    This online course offers the opportunity to discover the innovative uses of 3D printing and to understand the evolution of this fast-growing field.

    Using new design and production technologies (CAD & CAM), you will be learning how to digitally shape your ideas in 3D and how to apply 3D printing technology. In other words, you will learn how to manage a complete design and printing system that requires great care and attention in combining different  factors that need to work together in a harmonized way

    • Winter
    • Both

    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. 
    • Summer, Winter
    • Quantitative

    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
    • Quantitative

    Counting without Counting

    • Online

    One of the first things we learn in our life is counting. How difficult or easy is it though? How can seemingly complex mathematical concepts be helpful or necessary in order to efficiently count when it is not practically possible to count the objects one by one?

    Discrete Mathematics and especially Combinatorics answer such questions using patterns, colorings, graphs and many other such tools. Some of them, such as the Fibonacci numbers, can be found in nature and art, but strangely also find application in kilometers-miles conversions or express the number of ways someone can climb a ladder going up one or two steps at a time.

    In this course students will explore applications of Combinatorics in other sciences such as Computer Science and Economics, but also come in touch with problems from Mathematical Olympiads and riddles. They will also develop the ability to use abstract ways of thinking in real-life scenarios, and see applications of Discrete Mathematics in problems that scientists are called to solve.

    • Summer, Winter
    • Quantitative

    Epidemiology: Understanding Global Health

    • Online

    What does epidemiology study? How does a pandemic start? How does mathematics allow us to calculate the risk of such an occurrence? How do vaccines provide protection and how safe are they? Is it possible to predict and prevent future epidemics?

    During the course, students take on multiple roles. They become epidemiologists, researchers, microbiologists and even public health policy-makers, in order to investigate scientific data, examine cases of pandemics that have occurred in the past, study the epidemiological course of infectious diseases, learn about the most dangerous microorganisms for our health, and seek new ways to prevent and treat, always based on science and technology.

    The purpose of such activities is to offer students a holistic understanding of the concept of health and how it connects to social and environmental factors. In addition, students become familiar with different research tools that are being used in the above areas and have the opportunity to develop their analytical and critical thinking skills on important issues concerning public and individual health.

    • Winter
    • Quantitative

    Introduction to Java (Greek)

    • Online

    This course introduces students to the Java programming language. It teaches them the basic concepts of computer programming and at the same time it presents to them the core ideas of Object-oriented programming.

    At the end of the course the students should be able to write complete Java programs that distinguish between java primitive and non-primitive data types, to incorporate basic programming constructs, like loops and branches, to understand and put in proper use important object-oriented programming concepts, like classes and objects, and to take advantage of Java built-in methods.

    Students are expected to be familiar with standard computer operations (e.g. login, cut & paste, email attachments, etc.) before enrolling in the course. For 8th grade students, it is recommended to have completed the ‘Introduction to Web Design’ course.

    • Winter
    • Quantitative

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