This could cause the floor or ceiling to fall during the earthquake. * Sometimes, buildings are built on soft ground. Similarly, buildings that are located near the fault line are more susceptible to collapse. How can make buildings more resistant to earthquakes? Flexibility flexibility is one of the most important physical characteristics of earthquake-resistant buildings. The buildings in their foundations should be built to challenge the movement from one side to the other.

The tallest buildings are naturally more flexible than low-rise buildings. Thats because the low-rise structures, need greater support to withstand the forces of an earthquake. Lighter materials is also essential that materials used in construction should be of lightweight material. They can help significantly reduce the amount of damage caused during an earthquake. On the other hand, the wood and steel are better than no reinforced concrete or masonry, because these materials have greater flexibility. To greater ligeresa of the building, less load.

This is essential especially when the weight is concentrated at the top. Floors, walls and partitions must also be lightweight material. Reinforced walls, beams and trusses walls must also be sufficiently strong to bear the burden of the motion of an earthquake. The walls should influence and go equally in both directions. Incidentally, strategically placed beams and trusses should help transfer the effects of the influence of the base areas and its surroundings. It must not fall apart and you must stay in place to withstand the replicas of an earthquake. Reinforced beams and joints can also help prevent deformity and collapse of buildings and structures during and after an earthquake. Foundation the Foundation plates and bumpers can overlap so that the gliding motion and absorb shock and movement during an earthquake. These bases of plates must be designed so that they can help limit the damage and help prevent the collapse of buildings and structures. Not built on soft soil soil types can also limit the damage caused by an earthquake. Softer soils contain a high amount of moisture and are more capable of creating more damage to buildings and structures than those built on more solid foundations and its surroundings. Live in soft ground, can amplify the movement of the earthquake. This is due to the fact that energy passes through less dense material or substance, in this case, the floor. Proportion is the key in general, it is never advisable to construct buildings that are too high compared to its width. The width and height of the building must be proportional unless special precautions are taken. The lack of some planning structures and buildings have been designed for failing in a planned intentionally. In the case of an earthquake, these failures have intended this for the protection of the interior spaces, where the occupants are likely to be. These buildings and structures are also designed to reduce the amount of debris that could fall on nearby buildings and its surroundings. Buildings in the future look promising advances in the field of structural engineering. Advances in the field of structural engineering and manufacture of building materials are being made and there are new construction materials and superiors. Earthquake-proof buildings may soon be a reality. Research is underway to types of buildings and structures that would be able to withstand earthquakes. While we cannot control natural disasters, we can at least do something to construct safer buildings that protect the life of its occupants.