• Programme duration: 3 consecutive days. Daily start and finish times will be confirmed in your booking confirmation.
• Delivery language: English. Mandarin (Chinese) may be available depending on your selected option.
• Who it is for: Designed for students, families, and school groups. No advanced STEM background is required.
• Learning format: Hands-on workshops with guided building and testing. Modules can include flight experiments, drone assembly, astronomy concepts, and building a mini Newtonian reflecting telescope using 3D-printed parts (final modules may vary by availability and group level).
• Group size: Small-group format for better support. Maximum group size is shown on the booking page.
• What’s included: Instruction, core materials for build activities, and structured learning plan. Optional elements such as college accommodation and formal hall dinner are included only if clearly listed in your package.
• What’s not included: Travel to Cambridge and most meals unless stated in your booking details.
• What to bring: Comfortable clothing for workshop sessions, a light jacket for outdoor walking, and closed-toe shoes. If you wear glasses for detailed work, bring them.
• Safety: Supervised activities. Participants must follow staff instructions at all times. Younger participants may require adult support for delicate parts.
• Accessibility: Includes indoor workshop settings and some walking. If you have mobility or access needs, contact us in advance.
• Booking policy: Limited spaces. Please double-check your contact details so you receive programme updates and joining instructions.
Meeting Point
The exact meeting point and daily schedule will be provided in your booking confirmation. Please arrive 10 minutes early each day for check-in.
Cambridge From Flight to the Stars is a three-day STEM immersion programme built to turn big ideas into real understanding through building, testing, and iteration.
Day one starts with paper flight experiments to explore lift, balance, and stability in the simplest possible way. Day two moves into drone assembly, where participants learn structure, power, and flight control by building a working system. Day three shifts to astronomy and observation: how humans study the universe, and how instruments turn curiosity into evidence.
Participants then assemble a mini Newtonian reflecting telescope using 3D-printed parts, learning optics and design while completing a build they can actually understand and explain.
This is not a lecture tour. It’s a structured pathway from engineering on earth to observation of the sky, designed for learners who want knowledge that sticks.
Cambridge From Flight to the Stars is a three-day STEM immersion programme built to turn big ideas into real understanding through building, testing, and iteration.
Day one starts with paper flight experiments to explore lift, balance, and stability in the simplest possible way. Day two moves into drone assembly, where participants learn structure, power, and flight control by building a working system. Day three shifts to astronomy and observation: how humans study the universe, and how instruments turn curiosity into evidence.
Participants then assemble a mini Newtonian reflecting telescope using 3D-printed parts, learning optics and design while completing a build they can actually understand and explain.
This is not a lecture tour. It’s a structured pathway from engineering on earth to observation of the sky, designed for learners who want knowledge that sticks.
Cambridge From Flight to the Stars is a structured three-day STEM immersion programme designed for learners who understand best by building. Instead of long lectures, we use guided projects so key ideas become visible, testable, and memorable.
How the programme works
You move through a clear progression: start with simple flight experiments, build up to modern flight systems, then shift to astronomy and scientific observation. Each step is hands-on, supported by clear explanations and practical guidance.
What you’ll do across 3 days
Flight fundamentals through experiments
Use paper aircraft and simple tests to explore lift, balance, stability, and centre of gravity through observation and iteration.
Drone building and flight control logic
Assemble a drone to understand structure, power, and basic control systems, and learn what makes an aircraft fly steadily and safely.
Astronomy and how humans read the sky
Learn how observation became scientific evidence, from early sky mapping to modern ideas about the universe and cosmic history.
Telescope optics and design
Understand why the Newtonian reflecting telescope matters, and how reflection, alignment, and image formation work in real instruments.
3D printing and telescope assembly
Build a mini Newtonian reflecting telescope using 3D-printed components, turning abstract optics into a working structure you can explain.
This is not a lecture-based tour. It’s a practical engineering × science × astronomy programme built for students, families, and school groups who want STEM learning that genuinely sticks.
Cambridge From Flight to the Stars is a structured three-day STEM immersion programme designed for learners who understand best by building. Instead of long lectures, we use guided projects so key ideas become visible, testable, and memorable.
How the programme works
You move through a clear progression: start with simple flight experiments, build up to modern flight systems, then shift to astronomy and scientific observation. Each step is hands-on, supported by clear explanations and practical guidance.
What you’ll do across 3 days
Flight fundamentals through experiments
Use paper aircraft and simple tests to explore lift, balance, stability, and centre of gravity through observation and iteration.
Drone building and flight control logic
Assemble a drone to understand structure, power, and basic control systems, and learn what makes an aircraft fly steadily and safely.
Astronomy and how humans read the sky
Learn how observation became scientific evidence, from early sky mapping to modern ideas about the universe and cosmic history.
Telescope optics and design
Understand why the Newtonian reflecting telescope matters, and how reflection, alignment, and image formation work in real instruments.
3D printing and telescope assembly
Build a mini Newtonian reflecting telescope using 3D-printed components, turning abstract optics into a working structure you can explain.
This is not a lecture-based tour. It’s a practical engineering × science × astronomy programme built for students, families, and school groups who want STEM learning that genuinely sticks.
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Prices can vary by date and demand, so booking online shows the best available rate at the time you book. After checkout, you’ll receive instant booking confirmation with the key details you need.
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