Bumper cars have been a source of amusement and fascination for the young and young at heart for generations (http://sinoamusementrides.com/bumper-cars-for-sale/). Stepping into a bumper car, strapping oneself in, and letting loose on the other drivers is a pastime that continues to gain fans to this day. Surprisingly, this incredibly fun electric car ride has its roots in hard science. In some circles, bumper cars are considered a great real-world example of Newton’s Laws of Motion. Thankfully, understanding Newton’s laws is as easy as watching bumper-car drivers crash and burn rubber.
NEWTON’S LAWS OF MOTION
When it comes to bumper cars, Newton’s laws are the driving force behind much of the fun that you have at amusement parks. Newton’s first law, the law of inertia, covers how objects move when they’re in motion. This law says that objects that are moving stay in motion unless they’re influenced by an outside force, and the same holds true for objects that are at rest. The law of acceleration, Newton’s second law, states that an object’s mass and the force applied to it will influence how much the object moves. Under this law, it’s understood that bigger objects take more force to move than smaller objects and when more force is applied, more acceleration can be witnessed. Lastly, Newton’s third law, the law of interaction, simply states that every action can be expected to produce an equal and opposite reaction. This law especially is what can give a bumper car its trademark jolts of fun.
BUMPER-CAR MECHANICS
Though in the real world, collisions can mean serious accidents or injuries for people in vehicles, bumper cars are created with special rubber linings on the outsides of the cars to protect against damage. These rubber linings are what soften the impact and help the cars bounce off of each other. While electrical energy drives the cars to collide with each other, the rubber acts as a special barrier between cars, which can alter movement and angles of impact. In some cases, the rubber lining will readjust the direction of the bumper car to create an entirely new trajectory.
MOMENTUM, IMPULSE, AND COLLISIONS
Several different variables can influence how someone will experience driving a bumper car and colliding into another. The two cars’ masses, the weights of the drivers, and the velocities at which each is traveling can affect how each car and driver reacts after a collision. If the two people in the cars have different masses, the larger driver will move around less upon impact. Similarly, the driver who is traveling fastest will move the other car more when contact is made.
SAFETY AND FUN
Driving bumper cars can almost always guarantee a great time. The law of inertia, however, can have a negative effect on drivers who don’t follow basic safety rules and wear seat belts in bumper cars. This is because the body of a driver will keep moving in the way it was initially moving upon impact, which can result in the driver possibly being thrown from a bumper car if they aren’t properly restrained. Much like when driving in a vehicle on a street, it’s important to buckle up and prepare oneself for bumps along the road.
Source:https://www.titlemax.com/articles/physics-of-bumper-cars/
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