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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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  • CSI @ CTY

    Hey there future, detectives! Are you ready to dive into the exhilarating world of forensics’ science and crack some mind-bending cases? Throughout this interactive course, aspiring young detectives will embark on a journey to understand how chemical analysis plays a crucial role in solving crimes. From analyzing mysterious substances to deciphering hidden clues at crime scenes, you’ll learn the essential skills used by forensic chemists to crack even the toughest cases.

    Fingerprint lifting, blood typing, hair, fiber, soil and food analysis are just some of the criminalistics that will be introduced! You’ll learn everything about fundamental but nifty techniques that help CSI investigators sniff out clues and identify the perpetrator, such as titration, chromatography, spectroscopy, DNA electrophoresis. But wait, there’s more! Did you know that forensic scientists can determine a person’s age by analyzing their bones? You’ll explore the fascinating world of forensic anthropology and learn how to estimate the age and gender of skeletal remains—just like a real-life bone detective.

    Your skills will be put to the test as you tackle thrilling crime scenarios, from mysterious burglaries to dastardly poisonings. You’ll work in teams to collect and analyze evidence, follow leads, and catch the culprit before they strike again!

    So, if you’re ready to unlock the secrets of forensics and become the ultimate crime-solving superstar, join us in “CSI @CTY ” and prepare for the adventure of a lifetime! Because with a little chemistry know-how, anything is possible!

    Learning Objectives:

    • Collect, handle and analyze different types (fingerprints, blood, DNA, fibers, glass, bullets, etc) of evidence
    • Identify, perform and report scientifically, analytical chemistry techniques 
    • Write a forensics report using data to support findings reached after reviewing the available evidence.
    • Understand chemistry topics needed for the proposed forensic skills 

    Experimenting with language: A Writer’s Perspective

    Pulitzer Prize winning author Junot Diaz once said, “A writer is a writer because, even when there is no hope, even when nothing you do shows any signs of promise, you keep writing anyway.” Students in this course explore the ways in which writers use language to inspire, and make meaning in the world. With the help and support of the instructors, students practice reading with the sharp eye of a writer. As readers, they navigate various pieces of short fiction and poetry while questioning, investigating and employing techniques published writers use to make language come alive. As writers, they work toward developing their literary voices while experimenting with different writing methods and strategies. Students take risks and play with language as they create and share their work, collaborate with one another in writer’s workshops and develop finalized versions of their own, original, writing.

    Learning Objectives

    • Employ literary elements, narrative techniques, and figurative language in both formal and informal writing assignments.
    • Participate in multiple writing workshops that offer constructive criticism on your work in a safe, growth-oriented space.
    • Draft, revise, and undertake other important elements of the writing process in order to produce a minimum of two polished pieces of writing (short fiction and poetry).

    Food Power: Highway to Health

    What is kombucha and why is it a point of discussion? Is producing meat on a petri dish a viable option? How would you design a new product and what are its technical specifications? Students are introduced to the magical world of food through a variety of exciting activities and experiments!

    Inspired by Aristotle’s saying, “we are what we eat”, the journey begins by exploring food groups, discovering their impact on both personal well-being and the health of the planet. Equipped with the tools to decipher nutrition labels, students learn to make informed, healthy food decisions and adopt sustainable eating habits. Key issues such as the sourcing of critical raw materials and the development of sustainable food production systems are also examined, promoting a holistic understanding of the role of nutrition for a healthier future.

    Students analyze global trends in nutrition, try fermented foods and alternative protein sources, learn how taste tests are done in modern laboratories and in the industry, and design their own products. Using laboratory experiments and their “detective” skills they detect and isolate microorganisms in food and decide whether it is safe for consumers. Through discussions and experiments, students gain a deep understanding of environmental and social challenges, reflect on the need for sustainable practices and choices in food production, taste foods from around the world, and work as food researchers.

    Learning Objectives

    • Study and thoroughly check food labels and their nutritional information.
    • Practice laboratory techniques used in the field of food and nutrition science and their role in industry.
    • Create scientific posters, develop innovative ideas and design and present new products.
    • Understand scientific terms such as probiotics, gut microbiome, fermented foods.

    Foundations of Psychology

    Can you measure happiness or anger? How do brain functions, our cognition, the environment and our personality interact to shape who we are? Can you gain all this knowledge in three weeks? Foundations of Psychology gives students the opportunity to establish connections between factors that determine our behavior and wellbeing. Students learn how to conduct research and gather data, in order to measure emotions, behaviors, and cognition. A holistic approach to human behavior is utilized, combining the understanding of how the brain, hormones and genetics influence behaviors, along with the impact of the environment.  Experimentation, hands-on activities and role-play, as well as debates and heated discussions will provide students with a thorough understanding of the foundations of the most important fields of Psychology. The course also focuses on abnormal psychology, one of the areas that most students are especially interested in. Mental health disorders, their symptoms, causes and management are introduced from a critical point of view.

    Learning Objectives 

    • Demonstrate knowledge on research methods and biological psychology, such as brain anatomy, hormone regulation and genetics.
    • Experiment with memory and thinking games, to determine the role of cognition in behavior. 
    • Critically assess the role of the environment on development and wellbeing.
    • Research and review mental health disorders, their causes and management. 

    Introduction to Biomedical Sciences

    Which organ has over 400 functions? Are there liquid tissues in the human body? What factors contribute to the development of cancer? Much like Leonardo da Vinci’s fascination with human anatomy, our course delves into these intriguing questions! Drawing upon fundamental biological and chemical concepts, students explore the intricate anatomical and physiological mechanisms that govern normal human function, as an introduction to human biology and the science of medicine. Students learn about the human body’s different systems, including the digestive, cardiovascular, respiratory, musculoskeletal, excretory, nervous, endocrine, and immune systems, highlighting their interconnectedness. Laboratory activities encompass histology, anatomy and physiology (including dissections) and biochemistry techniques. Students also learn practical skills, such as suturing, and dive into group work, solving epidemiology mysteries and investigating the causes and cures for different diseases.

    Learning Objectives

    • Model the interrelatedness of three human body systems working together to maintain homeostasis. 
    • Demonstrate the skills and tools to complete scientific dissections.
    • Select, review and report on a disease or syndrome that impacts one human body system, including its causes, manifestation, symptoms and treatment methods. 

    Mathematical Modeling

    Mathematics is more than just numbers and symbols on a page. Applications of mathematics are indispensable in the modern world. Math can be used to determine whether a meteor will impact Earth, predict the spread of an infectious disease, or analyze a remarkably close presidential election. In this course, students create and evaluate mathematical models to represent and solve problems across a broad range of disciplines, including political science, economics, biology, and physics.

    Students begin with a review of some of the core mathematical tools in modeling, such as linear functions, lines of best fit, and exponential and logarithmic functions. Using these tools, students examine models such as those used in population growth and decay, voting systems, or the motion of a spring. Students also learn how to use Euler and Hamilton circuits to find the optimal solutions in a variety of real-world situations, such as determining the most efficient way to schedule airline travel. A introduction to probability and statistics lead into a study of using deterministic versus stochastic models to predict the spread of an epidemic and explore classic mathematical problems such as the traveling salesman problem, birthday paradox, and light switching problem.  Students are introduced to logic proofs by induction and contradiction.  Students leave this course familiar with all steps of the modeling process, from defining the problem and making assumptions, to assessing the model for strengths and weaknesses.

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