Hoverboard why is it moving like that?
Hoverboard why is it moving like that? Hoverboards, the crazy little motorized skateboards with the spinning wheels that hover over the floor, are getting a lot of press and publicity. As a result of this hype, some people ask the question: Why is Hoverboard hover movements so weird? They see self-balancing technology on airplanes and helicopters and automatically assume the same principles will apply to a Hoverboard. The answer may surprise you.
The problem with self-balancing technologies is the human element. Even if you have a computer on your wrist, someone is still required to push it against the body for it to move. Besides, once you stop balancing with some self-balancing systems, the technology stops working. And you are left without the ability to move at all. This limits self-balancing technology applications to fun ideas only – not something a person can do while riding a hoverboard for kids.
So how is a hoverboard different?
To understand why a Hoverboard looks different than a traditional skateboard, let’s start by considering how skateboards work. First of all, the wheels on a skateboard are attached to a series of platforms. Or conclave, on top of the skateboard. The wheel’s friction with the surface of the skateboard directs the skateboard to move forward. Once a rider puts his or her feet down, the friction with the ground allows the skateboard to sink into the soft, almost jelly-like substance that is the deck.
As the rider moves his or her feet up and down, more friction is created. And the more challenging the rider’s feet hit the surface, the faster the skateboard moves. It happens in reverse as well. As the rider moves his or her feet along the hoverboard’s deck, more friction is created. And the more challenging the rider’s feet hit the ground, the faster the hoverboard moves. This phenomenon is called the “kickback”. If you know a little about Physics, you can see how this works.
When two objects come into contact with each other, the resultant force acting on them is known as the force of gravity. The force of gravity pulls the two objects together, while the difference in their weights causes the objects’ motion apart. This simple example helps explain the cause-and-effect relationship between friction and the movement of a hoverboard. A Hoverboard consists of a metal frame with some propulsion system attached to it. Depending on which type of propulsion system the hoverboard uses, the weight of the rider will cause the board to accelerate downward. If the propulsion system is suction-based, for instance, the rider won’t feel any difference in the speed of the board. Because he or she is moving with the board. But, if the propulsion system is an electric motor, the rider will feel an increase in velocity when his or her weight pushes the board down.
Why Is it Moving So Fast?
Hoverboards, because they do not contain any friction when in motion, can stay in the air for much more extended periods than regular skateboards. The main reason for this is the unique energy dispersion pattern created when using hoverboards. The hoverboard’s top is primarily composed of air, while its bottom contains little air and very little weight. Thus, the air at the bottom of the hoverboard behaves like a thin barrier that helps the hoverboard follow the roads’ contours. Some hoverboards even look more like a cushion than a skateboard.
The way this hoverboard works also explains its incredible speed! Because the air at the bottom of the hoverboard is skinny and much like a wick, very little energy is necessary to make the board move quickly. This is different from regular skateboards, in which a great deal of energy is needed to propel the skateboard forward. In everyday skateboarding, you need to use a great deal of energy. But, in a hoverboard, all that energy is stored in the air due to the presence of a unique air distribution pattern!
If you want to know, “Why is it moving so fast?” then you must realize that hoverboard is not a skateboard at all! It is an extremely compact and versatile personal transport device that could very well replace cars shortly. Hoverboards are just as safe as a car. So, you can be driven like a car, and even offers the same type of versatility as a skateboard.