Product details
Pludo Hover Ball Science Kit – Learn Bernoulli’s Principle | Ages 11–14 | Grade 6 to 8
The Pludo Hover Ball Science Kit demonstrates the fascinating concept of Bernoulli's Principle, showing how airflow can keep a lightweight object suspended in the air.
When the switch is turned on, the motor rotates the fan blades, creating a powerful upward stream of air. A lightweight foam ball placed above the airflow rises and appears to float effortlessly.
Instead of flying away, the foam ball remains suspended because of the difference in air pressure around it. The fast-moving air directly beneath the ball creates a region of lower pressure, while the slower-moving surrounding air has higher pressure. This pressure difference continuously pushes the ball back toward the center of the airflow, helping it remain balanced and stable.
This hands-on experiment allows children to observe how airflow, pressure, and motion work together, making it an engaging way to understand an important scientific principle.
What Your Child Will Learn
• Discover how airflow and pressure create lift, making the ball float in midair.
• Understand Bernoulli’s Principle - the science behind how planes fly and hovercrafts move.
• Strengthen observation and analytical skills by testing different airflow speeds and directions.
• Build curiosity and connect physics concepts to real-life applications in flight and engineering.
• Enhance fine motor skills, focus, and problem-solving while assembling and experimenting.
• Experience the joy of discovery - perfect for classroom learning, home experiments, or STEM fairs.
Educational Outcomes
•
Physics in Action: Learn how differences in air pressure can create lift and movement.
•
Bernoulli’s Principle: Explore how airflow speed affects pressure to make objects hover.
•
Critical Thinking: Predict, observe, and test - understanding cause and effect through experiments.
•
STEM Skills: Build a foundation in physics, aerodynamics, and engineering through playful exploration.
💡 Did you know?
Airplanes stay in the sky because faster airflow over their wings creates lower pressure - the same principle that makes your hover ball float!
Features:
• Demonstrates Bernoulli’s Principle through an engaging hover ball experiment.
• Encourages curiosity in physics, motion, and air pressure through real-world application.
• Lets kids build, test, and observe airflow effects for practical STEM understanding.
• Combines play with education to boost problem-solving and critical thinking.
• Made from safe, durable, and eco-friendly materials, ideal for ages 11–14.
• Perfect for classroom demonstrations, science fairs, or home learning projects.
• A fun science toy that inspires a lifelong love for learning and discovery.
The Pludo Hover Ball Science Kit demonstrates the fascinating concept of Bernoulli's Principle, showing how airflow can keep a lightweight object suspended in the air.
When the switch is turned on, the motor rotates the fan blades, creating a powerful upward stream of air. A lightweight foam ball placed above the airflow rises and appears to float effortlessly.
Instead of flying away, the foam ball remains suspended because of the difference in air pressure around it. The fast-moving air directly beneath the ball creates a region of lower pressure, while the slower-moving surrounding air has higher pressure. This pressure difference continuously pushes the ball back toward the center of the airflow, helping it remain balanced and stable.
This hands-on experiment allows children to observe how airflow, pressure, and motion work together, making it an engaging way to understand an important scientific principle.
What Your Child Will Learn
• Discover how airflow and pressure create lift, making the ball float in midair.
• Understand Bernoulli’s Principle - the science behind how planes fly and hovercrafts move.
• Strengthen observation and analytical skills by testing different airflow speeds and directions.
• Build curiosity and connect physics concepts to real-life applications in flight and engineering.
• Enhance fine motor skills, focus, and problem-solving while assembling and experimenting.
• Experience the joy of discovery - perfect for classroom learning, home experiments, or STEM fairs.
Educational Outcomes
•
Physics in Action: Learn how differences in air pressure can create lift and movement.
•
Bernoulli’s Principle: Explore how airflow speed affects pressure to make objects hover.
•
Critical Thinking: Predict, observe, and test - understanding cause and effect through experiments.
•
STEM Skills: Build a foundation in physics, aerodynamics, and engineering through playful exploration.
💡 Did you know?
Airplanes stay in the sky because faster airflow over their wings creates lower pressure - the same principle that makes your hover ball float!
Features:
• Demonstrates Bernoulli’s Principle through an engaging hover ball experiment.
• Encourages curiosity in physics, motion, and air pressure through real-world application.
• Lets kids build, test, and observe airflow effects for practical STEM understanding.
• Combines play with education to boost problem-solving and critical thinking.
• Made from safe, durable, and eco-friendly materials, ideal for ages 11–14.
• Perfect for classroom demonstrations, science fairs, or home learning projects.
• A fun science toy that inspires a lifelong love for learning and discovery.



