Science Max | ELASTIC FORCE | Experiments

Science Max - 9 Story

7 Nov 201910:27

Summary

TLDRIn this episode of Science Max, Phil McCordick explores the concept of Newton's third law through the construction of balloon-powered cars, emphasizing the importance of friction in everyday life. He demonstrates various designs for the cars, including one using a turkey baster and another made from waffles and an ice cube tray. Phil also experiments with elastic force, creating a paddle wheel boat and a giant version using an air mattress and flutter board. The video concludes with a hover disc race using fire extinguishers, highlighting the challenges of steering without friction. Additionally, Phil showcases building techniques for creating stable arches and doorways using books and wooden blocks, culminating in a test of the arch's strength.

Takeaways

🎈 The balloon-powered car experiment demonstrates Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.
🚗 To build a balloon-powered car, you can use various materials and designs, but attaching the balloon to the car is crucial, as shown by using a turkey baster.
🔧 Wheels can be made to roll by attaching them to an axle or by taping the axle and allowing the wheels to spin around it.
🏁 Experimentation with different car designs can lead to improvements in speed and performance, as illustrated by the variety of cars built in the script.
🚤 Another fun project involves creating a paddle wheel boat using elastic force, with a milk carton, popsicle sticks, and clamshell packaging.
💧 The importance of friction is highlighted in the hover disc race, where the lack of friction makes steering difficult, similar to moving on ice.
🏰 Building a stable arch involves stacking layers closer to the center with each level, as demonstrated with books and building blocks.
🔨 The script showcases a corbeled arch construction, which is an ancient technique used to create doorways in stone buildings.
🛠️ The experiment with a cardboard arch emphasizes the strength and stability that can be achieved with the right construction techniques.
🏋️‍♂️ The final test of the cardboard arch's strength involves a person standing on it, which is a testament to the effectiveness of the construction method.

Q & A

What is the main principle behind a balloon-powered car?
-The main principle behind a balloon-powered car is Newton's third law, which states that for every action, there is an equal and opposite reaction.
What is a suggested item to use for attaching the balloon to the car?
-A turkey baster is suggested for attaching the balloon to the car, as it has an opening that can be used to stick the balloon on and allows for easy attachment and inflation.
How can you make the wheels of a balloon-powered car roll?
-There are two ways to make the wheels roll: attaching the wheels to the axle, or taping down the axle and having the wheels spin around it.
What are some materials used to build different designs of balloon-powered cars in the script?
-Materials used include a turkey baster, cardboard, paper plates, a snorkel, a rock, a long broom handle, and waffles with an ice cube tray.
What is the purpose of the paddle wheel boat experiment in the script?
-The paddle wheel boat experiment demonstrates the use of elastic force by using elastic bands and popsicle sticks attached to a milk carton, which propels the boat when placed in water.
Why is friction important in the context of the hover disc race?
-Friction is important in the hover disc race because it allows the discs to grip the surface and change direction. Without friction, the discs would keep moving in the same direction, making steering difficult.
What is the purpose of using fire extinguishers in the hover disc race?
-Fire extinguishers are used to provide more thrust in the hover disc race, but they also highlight the importance of friction, as the lack of it makes steering challenging.
How is a corbeled arch built according to the script?
-A corbeled arch is built by stacking layers of blocks or books, with each layer getting progressively closer to the center until the top layer touches, creating an archway.
What is the significance of the cardboard arch experiment?
-The cardboard arch experiment demonstrates the strength and stability of a corbeled arch design, which is a type of arch used in ancient stone buildings.
What is the role of friction in everyday objects as mentioned in the script?
-Friction plays a crucial role in everyday objects by providing grip and stability. Without friction, objects would not stick together, bolts and screws would not hold, and vehicles would not be able to turn or stop.