Quest: Sugar Rockets

Quest Title: Ignite the Sky: The Sugar Rocket Adventure

Duration: 6 Weeks

Age Group: Middle School / High School

Focus Areas: Physics, Chemistry, Engineering, Creative Problem Solving

Week 1: Blast Off into Basics

Goal: Understand the principles of rocketry and the science behind sugar rockets.

Activities:

• Engage: Watch a video or live demonstration of a sugar rocket launch.
• Explore: Learn the history of rocketry and its applications.
• Explain: Discuss the chemical reaction involved in sugar rockets (oxidation of sugar and potassium nitrate).
• Experiment: Conduct a safe, small-scale reaction to observe the combustion process without launching.

Deliverable: Students design and draw a blueprint for their sugar rocket.

Week 2: Engineering Excellence

Goal: Build the basic components of a rocket.

Activities:

• Explore: Learn about nozzle design, body stability, and fins' aerodynamic function.
• Experiment: Build and test different nozzle designs using clay or 3D printing.
• Explain: Discuss safety protocols for handling materials and launching rockets.

Deliverable: Create a detailed materials list and prototype the rocket body without propulsion.

Week 3: Fuel for Thought

Goal: Create and test the rocket fuel.

Activities:

• Engage: Learn about the stoichiometry of the sugar and oxidizer mix.
• Experiment: Safely prepare small batches of sugar rocket fuel, using a heat-mixing method.
• Explain: Measure and adjust fuel ratios for optimal thrust.

Deliverable: Document the process and results of fuel testing, including observations of burn rates and residue.

Week 4: Building the Rocket

Goal: Assemble the complete rocket for testing.

Activities:

• Engage: Discuss how components like parachutes or recovery systems are designed.
• Experiment: Assemble the rocket with fuel, body, fins, and a nose cone.
• Explore: Test stability by conducting non-fueled drop tests and balance checks.

Deliverable: Fully assembled sugar rocket ready for launch.

Week 5: Test and Iterate

Goal: Launch rockets, collect data, and refine designs.

Activities:

• Engage: Conduct a group launch day, recording data on altitude, flight time, and stability.
• Explain: Analyze the results using physics equations for thrust and trajectory.
• Experiment: Modify rockets based on data to improve performance.

Deliverable: A second iteration of the rocket design based on launch results.

Week 6: Present and Reflect

Goal: Showcase the rockets and celebrate learning.

Activities:

• Engage: Host a Rocket Fair where students display their rockets, launch videos, and data.
• Explain: Reflect on the challenges faced and skills learned.
• Explore: Brainstorm how rocketry connects to real-world STEM careers and innovations.

Deliverable: A presentation (poster, video, or live demo) and a personal reflection journal entry.

Materials Needed:

• Potassium nitrate (oxidizer)
• Sugar (fuel)
• PVC pipes (rocket body)
• Clay or 3D printed nozzles
• Cardboard/fiberglass sheets (for fins)
• Safety equipment: gloves, goggles, fire extinguisher

Key Skills Developed:

• Chemistry: Understanding reactions and stoichiometry
• Engineering: Designing stable, aerodynamic rockets
• Math: Applying physics equations to calculate trajectories
• Problem Solving: Iterating designs based on real-world results

This quest culminates in an unforgettable journey of learning, teamwork, and launching dreams skyward! 🚀