It really depends on how earthquake-hardened they are. In recent decades, a great deal of research and development has gone into developing and building more earthquake "proof" structures. These can include the introduction of shocks or struts to the foundation of the building that reduce or counter the swaying action of quakes.
The biggest element to consider is that the more rigid less flexible a structure is, the more it is susceptible to damage or destruction from a quake. This is the primary reason from vast areas of devastation in third world, and old world regions where quakes occur. Mortar and plaster constructions do not hold up well when the ground shakes.
They shadder
Earthquake reinforcement makes the structures earthquake-resistant. It strengthens the structures against the effects of ground shaking. Such structures would not collapse during an earthquake but may get damaged severely. Safety of people is important in earthquake-resistant buildings, and the property contained in such structures is safeguarded as the disaster is avoided. Seismic design codes throughout the world adhere to this objective while specifying the earthquake reinforcement factors. When you consider seismic design for a new RCC structure, the reinforcement would be worked out based on the design requirements of the seismic zone in which the building will be constructed. Also, one can retrofit the damaged structures with earthquake reinforcement according to the type of masonry with which they were built. For a complete seismic design tips in a nutshell, please see the related link.
A seiche, is what happens in the swimming pools of Californians during and after an earthquake.
it erodes but i cant erode cauz erode means to eat through so it shifts
The soil becomes a liquid or a solid depending on the magnitude of the earthquake. Also the soil becomes decomposed by octopus because octopus eat chicken.
If the fault is responsible for the earthquake, there will be movement (displacement) along the fault.
Definition: structures that are resistant to vibrations during an earthquake:)
the cause of structures to collapse during earthquakes are upheavals of tectonic plates..
well, one hazard would be fires. with earthquakes, come broken underground pipes, such as water, and gas. Another hazard is weak structures like buildings DO NOT GO INTO A BUILDING DURING AN EARTHQUAKE! IT CAN FALL!
Boom
It usually happens after or during an earthquake.
There is a sudden movement in the earths crust in an earthquake. However, lava does not appear
when the plates crash each other the earthquake happens
Fire damage to a structure weakens the stability of the structure. Structures with fire damage are a concern during an earthquake due to their stability and the high chances of them collapsing.
it shakes it cracks and opens up wide
They often get messed up, and must be repaired.
Earthquake reinforcement makes the structures earthquake-resistant. It strengthens the structures against the effects of ground shaking. Such structures would not collapse during an earthquake but may get damaged severely. Safety of people is important in earthquake-resistant buildings, and the property contained in such structures is safeguarded as the disaster is avoided. Seismic design codes throughout the world adhere to this objective while specifying the earthquake reinforcement factors. When you consider seismic design for a new RCC structure, the reinforcement would be worked out based on the design requirements of the seismic zone in which the building will be constructed. Also, one can retrofit the damaged structures with earthquake reinforcement according to the type of masonry with which they were built. For a complete seismic design tips in a nutshell, please see the related link.
A Richter scale measures the movement of the earths surface which happens during an earthquake.