Which of the Following Best Explains Why Buildings Tip During Earthquakes?

Which of the following best describes why buildings fail in an earthquake? Most buildings are not designed to withstand strong lateral (horizontal) forces.

Which of the Following Best Explains Why Buildings Tip During Earthquakes?

Earthquakes can cause a great deal of destruction and devastation, and one of the most common effects of a strong earthquake is the tipping of buildings. This phenomenon can be explained by several factors, all of which are related to the shaking and shaking forces created by the seismic waves of an earthquake.

The force of inertia is the first factor that can cause buildings to tip during earthquakes. This force is created when an object is in motion and is trying to stay in motion, even if the direction and speed of the thing is constantly changing. This can be seen when an earthquake occurs, as the shaking of the ground causes the building to move, and the inertia of the building causes it to tip over.

Another factor that can cause buildings to tip during earthquakes is the difference between the foundation’s stiffness and the structure’s flexibility. When an earthquake occurs, the foundation of the building will remain stiff, while the building itself will be subjected to a great deal of movement and flexibility. This difference between the foundation’s stiffness and the structure’s flexibility can cause the building to tip over.

The strength of the walls and other structural components is the third factor that can cause buildings to tip during earthquakes.

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