Earthquakes are a common natural disaster in many parts of the world, causing extensive damage to buildings and infrastructure. In order to mitigate the impact of these seismic events, engineers and architects have developed earthquake-resistant structures. These structures are designed to withstand the forces exerted by an earthquake, including strong shaking and ground movement.

Various techniques and materials are used to make buildings more resilient to earthquakes, such as shock absorbers, base isolators, and flexible frames.

In addition, buildings can be constructed with reinforced concrete, steel frames, and other materials that can better withstand the lateral forces generated by an earthquake. These earthquake-resistant structures are crucial in regions prone to seismic activity, as they can help protect lives and property during a tremor.

Overall, the development of earthquake-resistant structures is an important step in improving the resilience of buildings and infrastructure in earthquake-prone areas. By incorporating these design principles and technologies, engineers and architects can help minimize the damage caused by earthquakes and ensure the safety of occupants in buildings during a seismic event.