STEM projects for 36 weeks of Grade 11, with a brief description for each project:
Week 1: Designing and Testing Model Geothermal Power Plants
Design and build model geothermal power plants to harness the Earth’s heat. Explore the principles of geothermal energy and test the efficiency of power generation.
Week 2: Investigating Biomedical Imaging Technologies
Study biomedical imaging technologies like MRI, CT scans, or ultrasound. Explore their principles, applications, and discuss their impact on medical diagnostics.
Week 3: Exploring Machine Vision and Image Processing
Learn about machine vision and image processing techniques. Develop algorithms to analyze and manipulate digital images for various applications.
Week 4: Designing and Testing Model Bionic Hands
Design and build model bionic hands using materials like strings, pulleys, and sensors. Test their functionality and discuss the potential of bionic prosthetics.
Week 5: Investigating Materials Science and Nanomaterials
Study materials science and the properties of nanomaterials. Explore topics like nanotechnology, nanocomposites, or nanofabrication techniques.
Week 6: Designing and Testing Model Water Filtration Systems
Design and build model water filtration systems using materials like sand, gravel, and activated carbon. Test their efficiency in purifying water and discuss the importance of clean water access.
Week 7: Exploring Data Analysis and Visualization
Learn techniques for data analysis and visualization using tools like Python, R, or Tableau. Analyze and present data in meaningful and informative ways.
Week 8: Investigating Renewable Energy Grid Integration
Research the challenges and solutions for integrating renewable energy into the power grid. Explore topics like grid storage, smart grids, or demand response.
Week 9: Designing and Testing Model Aerodynamic Cars
Design and build model aerodynamic cars using materials like foam, wheels, and streamlining techniques. Test their speed, stability, and discuss the principles of aerodynamics.
Week 10: Exploring Synthetic Biology and Bioengineering
Study synthetic biology and its applications in creating novel biological systems. Explore topics like genetic circuits, biofuels, or synthetic organisms.
Week 11: Investigating Quantum Computing Applications
Explore the potential applications of quantum computing in cryptography, optimization, or simulations. Study quantum algorithms and discuss the challenges of quantum computing.
Week 12: Designing and Testing Model Hydroponic Systems
Design and build model hydroponic systems for soil-less plant cultivation. Test their effectiveness in providing nutrients and water to plants and discuss the advantages of hydroponics.
Week 13: Exploring Aerospace Propulsion Systems
Study aerospace propulsion systems like jet engines, rockets, or electric propulsion. Explore the principles of thrust generation and their applications in aviation and space exploration.
Week 14: Investigating Data Privacy and Cybersecurity Ethics
Explore the ethical considerations in data privacy and cybersecurity. Analyze case studies and discuss the ethical implications of data breaches and surveillance.
Week 15: Designing and Testing Model Wind Tunnel
Design and build a model wind tunnel to study aerodynamic principles. Test models of different shapes and sizes to understand airflow and turbulence.
Week 16: Exploring Bioinformatics and Genomic Analysis
Learn about bioinformatics and its applications in genomics and genetic research. Analyze DNA sequences, study gene expression, and explore computational biology techniques.
Week 17: Investigating Sustainable Materials for Construction
Research sustainable materials for construction like bamboo, recycled concrete, or green insulation. Explore their properties, durability, and environmental impact.
Week 18: Designing and Testing Model Solar Water Heaters
Design and build model solar water heaters using materials like pipes, glass, and solar collectors. Test their efficiency in heating water using solar energy.
Week 19: Exploring Robotics in Healthcare
Study the use of robotics in healthcare, including surgical robots, assistive robots, or rehabilitation robots. Explore their applications, benefits, and future prospects.
Week 20: Investigating Climate Change Mitigation Strategies
Research climate change mitigation strategies like renewable energy deployment, carbon capture, or afforestation. Analyze their effectiveness and discuss their potential impact.
Week 21: Designing and Testing Model Rube Goldberg Machines
Design and build model Rube Goldberg machines that perform a simple task using a complex chain reaction. Test their functionality and creativity in achieving the desired outcome.
Week 22: Exploring Cryptography and Data Security
Study cryptography techniques like encryption, decryption, and digital signatures. Explore their applications in securing communication and data transmission.
Week 23: Investigating Biomechanics in Sports Performance
Study biomechanics principles in sports performance, including motion analysis, force generation, or injury prevention. Analyze athletes’ movements and discuss performance optimization.
Week 24: Designing and Testing Model Vertical Gardens
Design and build model vertical gardens using materials like recycled containers, soil, and plants. Test their effectiveness in vertical farming and discuss the benefits of urban agriculture.
Week 25: Exploring Artificial Intelligence in Healthcare
Study the applications of artificial intelligence (AI) in healthcare, including medical image analysis, disease diagnosis, or drug discovery. Explore the potential of AI to revolutionize healthcare.
Week 26: Investigating Sustainable Transportation Solutions
Research sustainable transportation solutions like electric vehicles, public transit systems, or bike-sharing programs. Analyze their environmental impact and discuss the challenges of implementation.
Week 27: Designing and Testing Model Pneumatic Systems
Design and build model pneumatic systems using syringes, tubes, and air compressors. Test their functionality and discuss the principles of pneumatics in engineering.
Week 28: Exploring Biomechanical Engineering
Study biomechanical engineering principles and their applications in designing prosthetics, implants, or rehabilitation devices. Explore topics like biomaterials, biomechanical modeling, or tissue engineering.
Week 29: Investigating Space Exploration Technologies
Research space exploration technologies like rockets, satellites, or space telescopes. Explore their design, functionality, and contributions to scientific discovery.
Week 30: Designing and Testing Model Solar Desalination Systems
Design and build model solar desalination systems to convert seawater into freshwater using solar energy. Test their efficiency and discuss the importance of sustainable water resources.
Week 31: Exploring Sustainable Packaging Solutions
Study sustainable packaging solutions like biodegradable materials, eco-friendly designs, or minimal packaging. Analyze their environmental impact and discuss the importance of sustainable packaging practices.
Week 32: Investigating Medical Imaging and Diagnostic Techniques
Explore medical imaging and diagnostic techniques like X-rays, PET scans, or molecular imaging. Study their applications, advantages, and limitations in medical diagnosis.
Week 33: Designing and Testing Model Hydraulic Elevators
Design and build model hydraulic elevators using syringes, tubes, and water. Test their functionality and discuss the principles of hydraulic systems in elevator design.
Week 34: Exploring Energy-Efficient Building Design
Study energy-efficient building design principles like passive cooling, insulation, or smart lighting systems. Analyze case studies and discuss the importance of sustainable buildings.
Week 35: Investigating Artificial Neural Networks and Deep Learning
Learn about artificial neural networks and deep learning algorithms. Explore their applications in image recognition, natural language processing, or autonomous systems.
Week 36: Designing and Testing Model Satellite Communication Systems
Design and build model satellite communication systems using antennas, transceivers, and data transmission protocols. Test their functionality and discuss the principles of satellite communication.