The weight is diffrent for diffrent models contact a manufatures website for details.
In a perfect scenario, a hovercraft has no contact with the ground, though much of the time, some of the material that makes the skirt will be touching the ground. Even with this minimal contact though, the weight of the hovercraft is counterbalanced by the air pressure its engines generate, rather than the skirt. As air flows freely past itself, and there is little other source of frictional resistance, apart from the hovercraft's engines and air resistance, there isn't much that can stop a hovercraft once it gets going. Incidentally, it means that there isn't much to stop a hovercraft from moving in the first place. Not all hovercraft have the same design, so some roll on corners more than others, so designers try keep the centre of gravity as low as possible, otherwise considerable weight shifting is required to get the hovercraft to turn. Hovercraft accelerate into corners to get into a spin.
There are fans in the hovercraft that direct air downwards. The air is 'trapped' by the flexible skirt around the edge of the craft - this creates a cushion of air strong enough to allow the craft to float.
A "maglev" or "magnetic levitation" train is suspended over the magnetically polarized rail. A hovercraft is more like a low-flying helicopter, using fans to blow air down underneath the vehicle. A hovercraft is sometimes known as a "ground effect vehicle", because it compresses air between the ground and the hovercraft. Hovercraft do not require tracks, and are equally able to "fly" over land and water.
The purpose of making a hovercraft is to reduce the friction and drag that boats experience on the water. This makes the craft faster, more efficient, and more fun!
An air cushion is a layer of trapped air which supports a hovercraft.
A fan inflates the skirt to the point were the psi trapped by the skirt x the foot print(area) of the hovercraft is equal to the weight of the hover craft and it floats.
The key factor is power to weight ratio for high speed Hovercraft. However, there are slow speed Hoverbarges, similar to Hovercraft which are very large, up to 2,500 tonne payload! Check out the link provided below.
In a perfect scenario, a hovercraft has no contact with the ground, though much of the time, some of the material that makes the skirt will be touching the ground. Even with this minimal contact though, the weight of the hovercraft is counterbalanced by the air pressure its engines generate, rather than the skirt. As air flows freely past itself, and there is little other source of frictional resistance, apart from the hovercraft's engines and air resistance, there isn't much that can stop a hovercraft once it gets going. Incidentally, it means that there isn't much to stop a hovercraft from moving in the first place. Not all hovercraft have the same design, so some roll on corners more than others, so designers try keep the centre of gravity as low as possible, otherwise considerable weight shifting is required to get the hovercraft to turn. Hovercraft accelerate into corners to get into a spin.
There are many hovercraft available for different applications, for example leisure hovercraft, rescue hovercraft, commercial hovercraft - hovercraft come in all sizes, from racing through to leisure and large military hovercraft.
The hovercraft was invented in England
The hovercraft was invented in 2005!
there is no hovercraft in gta4
Hovercraft is a noun.
i like to fly in my hovercraft!
how did the hovercraft change the world
How is friction cut down in a hovercraft? This is done by hovering over the surface Why is friction cut down in a hovercraft? Because the surface of the hovercraft is smooth
Hovercraft - band - was created in 1993.