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Middle Level STEM (Ages 10-12)

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  • Middle Level STEM (Ages 10-12)
  • Personal Productivity & Organization Systems

About This Course

Build on foundational STEM knowledge with more complex investigations, engineering challenges, and mathematical problem-solving appropriate for middle elementary learners. This hands-on course introduces scientific methodology, basic engineering design processes, and mathematical applications in real-world contexts.

Students work on collaborative projects, conduct structured experiments, and use basic technology tools while developing critical thinking and teamwork skills. The program prepares students for more advanced STEM coursework while maintaining engagement through practical applications.

What You'll Get

  • Deeper understanding of scientific principles through structured investigations
  • Introduction to engineering design process and systematic problem-solving
  • Mathematical applications in real-world contexts and projects
  • Collaborative project experience and teamwork skills development
  • Foundation for advanced STEM coursework in high school

Who This is For?

  • Students ages 10-12 with solid foundation in basic STEM concepts
  • Young learners ready for more challenging scientific investigations
  • Children interested in how STEM applies to real-world problems
  • Students preparing for competitive STEM programs or specialized schools
  • Young people considering STEM-focused educational pathways

Requirements

  • Age 10-12 years with completion of STEM Foundation or equivalent experience
  • Grade-appropriate mathematics and reading comprehension skills
  • Interest in more complex scientific concepts and problem-solving challenges
  • Ability to work collaboratively on team projects and investigations
  • Parent or guardian support for project completion and learning reinforcement

Curriculum

14 Sessions
 

Learning Objectives:

  • Master the scientific method and experimental design
  • Learn to form testable hypotheses
  • Practice controlling variables and collecting data

Workshop Content:

  • Scientific method steps and applications
  • Hypothesis formation and testing strategies
  • Variable identification and control techniques
  • Data collection methods and tools

Learning Objectives:

  • Apply mathematical concepts to scientific problems
  • Learn graphing and data analysis techniques
  • Practice measurement and calculation skills

Workshop Content:

  • Mathematical applications in science and engineering
  • Graphing techniques and data visualization
  • Unit conversion and measurement precision
  • Statistical concepts for data analysis
 

Learning Objectives:

  • Understand atomic structure and chemical reactions
  • Learn safe laboratory techniques and procedures
  • Practice observation and analysis of chemical changes

Workshop Content:

  • Atomic structure and periodic table basics
  • Chemical reaction types and indicators
  • Laboratory safety and technique procedures
  • Qualitative and quantitative analysis methods
 

Learning Objectives:

  • Explore force, motion, and energy concepts
  • Learn about electricity and magnetism basics
  • Practice physics problem-solving and calculations

Workshop Content:

  • Force, motion, and energy relationships
  • Electricity and magnetism demonstrations
  • Physics problem-solving strategies
  • Mathematical modeling of physical phenomena
 

Learning Objectives:

  • Understand cell structure and biological processes
  • Learn classification and taxonomy systems
  • Practice biological observation and documentation

Workshop Content:

  • Cell structure and function exploration
  • Classification systems and taxonomy
  • Biological process investigation (photosynthesis, respiration)
  • Microscopy and biological observation techniques
 

Learning Objectives:

  • Explore geological processes and earth systems
  • Learn about weather patterns and climate
  • Practice environmental monitoring and analysis

Workshop Content:

  • Geological processes and rock formation
  • Weather and climate pattern analysis
  • Environmental monitoring techniques
  • Human impact on earth systems
 

Learning Objectives:

  • Master engineering design process
  • Learn to identify and solve engineering problems
  • Practice building and testing prototypes

Workshop Content:

  • Engineering design process steps and applications
  • Problem identification and constraint analysis
  • Prototype development and testing procedures
  • Design iteration and improvement strategies
 

Learning Objectives:

  • Understand computer science concepts and programming basics
  • Learn about digital systems and information processing
  • Practice algorithmic thinking and problem decomposition

Workshop Content:

  • Computer science fundamentals and programming concepts
  • Algorithm development and logical thinking
  • Digital systems and information representation
  • Introduction to programming languages and tools
 

Learning Objectives:

  • Learn data collection and analysis techniques
  • Understand statistical concepts and probability
  • Practice creating and interpreting data visualizations

Workshop Content:

  • Data collection methods and survey design
  • Statistical analysis and probability concepts
  • Data visualization techniques and tools
  • Research methodology and conclusions
 

Learning Objectives:

  • Understand environmental systems and interactions
  • Learn about sustainability and conservation principles
  • Practice environmental monitoring and problem-solving

Workshop Content:

  • Environmental systems and ecosystem interactions
  • Sustainability principles and conservation strategies
  • Environmental problem identification and solution design
  • Green technology and renewable energy concepts
 

Learning Objectives:

  • Plan and execute independent STEM project
  • Practice project management and timeline development
  • Learn presentation and communication skills

Workshop Content:

  • Independent project planning and management
  • Research methodology and resource identification
  • Timeline development and milestone setting
  • Scientific communication and presentation skills
 

Learning Objectives:

  • Master scientific writing and communication
  • Learn to create effective presentations and displays
  • Practice peer review and feedback processes

Workshop Content:

  • Scientific writing techniques and formats
  • Presentation design and delivery skills
  • Visual display creation and scientific posters
  • Peer review and constructive feedback processes
 

Learning Objectives:

  • Explore different STEM careers and pathways
  • Learn about education requirements and opportunities
  • Practice goal setting for STEM education and careers

Workshop Content:

  • STEM career field overview and exploration
  • Education pathway planning for STEM careers
  • Interview techniques and career research methods
  • Goal setting and action planning for STEM futures
 

Learning Objectives:

  • Complete independent STEM projects
  • Present findings to peers and community
  • Reflect on learning and plan continued STEM exploration

Workshop Content:

  • Independent project completion and final preparation
  • Science fair presentation setup and delivery
  • Learning reflection and self-assessment
  • Future STEM learning and exploration planning
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This Course Include

  • Live Interactive Workshops
  • Practical Implementation Projects
  • Comprehensive Resource Library
  • Peer Learning Community
  • Expert Instructor Support

Want personalized guidance?

Schedule a free 15-minute consultation with one of our program advisors to discuss your specific needs and goals.