Ping pong activity! Follow FizzicsEd 150 Science Experiments: Comments 0 You will need A Ping Pong Ball String Tape Running water Written by Fizzics Education. Reviewed by Ben Newsome CF. Cite this experiment Copyright Notice Instruction 1 Tape the string onto the ball. 2 Turn on the water tap. 3 Hold the string and dangle the ping pong ball in the running water. 4 Which way does the ping pong ball move; towards or away from the water stream? 5 School science visits since 2004! – Curriculum-linked & award-winning incursions. – Over 40 primary & high school programs to choose from. – Designed by experienced educators. – Over 2 million students reached. – Face to face incursions & online programs available. – Early learning centre visits too! 6 Online courses for teachers & parents – Help students learn how science really works 7 Want to dive into air pressure? Get the 60-minute video + PDFs + curriculum links for your class here! Why Does This Happen The Science of the Ping Pong Bernoulli Effect This experiment is a hands-on demonstration of Bernoulli’s Principle. Daniel Bernoulli, an 18th-century mathematician, discovered a fundamental rule of fluid dynamics: as the speed of a moving fluid (like air or water) increases, the pressure within that fluid decreases. The “Coanda Effect” and Pressure When the water stream touches the curved surface of the ping pong ball, it doesn’t just bounce off; it “hugs” the curve. This is known as the Coanda Effect. Because the water is moving quickly over that curved surface, it creates a pocket of low pressure on that side of the ball. High Pressure vs. Low Pressure: The air on the “dry” side of the ball is still, meaning it is at normal atmospheric pressure. The Push: Nature hates a vacuum (or a pressure imbalance!). The higher-pressure air on the dry side pushes against the ball, forcing it into the low-pressure stream of water. This same principle is what allows massive airplanes to fly! Air moves faster over the curved top of a wing than underneath it, creating low pressure on top and “lifting” the plane into the sky. Variables to test Find out more on variables here. Fluid Medium Try the same experiment using a hair dryer or a fan instead of water. Does the lower density of air compared to water change how strongly the ball is “pulled” into the stream? Flow Velocity Vary the speed of the water stream. According to Bernoulli, the faster the fluid, the lower the pressure. Does a faster stream make the ball snap toward the water more aggressively? Mass and Inertia Set up the experiment with larger, heavier balls (like a tennis ball). Is the pressure differential created by the water stream strong enough to overcome the increased weight of the ball? Aerodynamics and Shape What happens if you suspend a cube-shaped block instead? Without the curved surface to trigger the Coanda Effect, does the fluid still create a low-pressure pocket, or does it just push the block away? To keep your experiment valid, try to keep the length of the string the same for each object you test. This ensures that the only thing changing is the variable you’ve chosen! âś… Reviewed: April 6, 2026 APA 7 Citation: Fizzics Education. (2018). Ping pong activity. https://www.fizzicseducation.com.au/150-science-experiments/force-movement-experiments/ping-pong-activity/ Copy APA Citation Reviewer This resource was last reviewed for scientific accuracy on April 6, 2026. Ben Newsome CF is the recipient of the 2023 UTS Chancellor’s Award for Excellence and a Churchill Fellow. He is a global leader in science communication and the founder of Fizzics Education. Learn more! Teaching about air pressure? Check out the Flight or Weather show! Teaching about Newton’s laws? Check out the Forces, Friction & Movement workshop! Get in touch with FizzicsEd to find out how we can work with your class. Learn more about air pressure! Get the 60-minute video + PDFs + curriculum links for your class here! Forces, Friction & Movement Years K to 6 Maximum 30 students School workshop 60 or 90 minutes Online Class Available Read More Enquire Now STEM Full Day Accelerator - Primary Designed from real classroom experiences, this modular day helps you create consistently effective science learning that directly address the new curriculum with easily accessible and cost-effective materials. Read More Enquire Now Be Amazing! How to teach science, the way primary kids love. $29.95 excl. GST View Details Add to Cart Trustpilot
School science visits since 2004! – Curriculum-linked & award-winning incursions. – Over 40 primary & high school programs to choose from. – Designed by experienced educators. – Over 2 million students reached. – Face to face incursions & online programs available. – Early learning centre visits too!
Want to dive into air pressure? Get the 60-minute video + PDFs + curriculum links for your class here!
Teaching about air pressure? Check out the Flight or Weather show! Teaching about Newton’s laws? Check out the Forces, Friction & Movement workshop! Get in touch with FizzicsEd to find out how we can work with your class. Learn more about air pressure! Get the 60-minute video + PDFs + curriculum links for your class here!
Forces, Friction & Movement Years K to 6 Maximum 30 students School workshop 60 or 90 minutes Online Class Available Read More Enquire Now
STEM Full Day Accelerator - Primary Designed from real classroom experiences, this modular day helps you create consistently effective science learning that directly address the new curriculum with easily accessible and cost-effective materials. Read More Enquire Now
Designed from real classroom experiences, this modular day helps you create consistently effective science learning that directly address the new curriculum with easily accessible and cost-effective materials.
Be Amazing! How to teach science, the way primary kids love. $29.95 excl. GST View Details Add to Cart Trustpilot
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