Dynamic analysis is really important for university buildings that are in places where earthquakes are common. Here’s why:
Earthquake Forces: During an earthquake, buildings can feel forces that are 2 to 3 times heavier than what they normally handle. This means we need to carefully check how buildings will react to these forces.
Ground Motion Frequency: Each building has a natural frequency, which is like its own unique "heartbeat." If this frequency is close to the frequency of an earthquake’s shaking, the building can start to shake too much, which is called resonance.
Safety Rules: There are important guidelines, like ASCE 7, that recommend a safety level of at least 0.1g for buildings in areas with high earthquake risk. This helps keep buildings safe and makes sure they stay strong.
In the end, doing dynamic analysis is crucial. It helps stop buildings from failing during an earthquake and keeps everyone inside safe.
Dynamic analysis is really important for university buildings that are in places where earthquakes are common. Here’s why:
Earthquake Forces: During an earthquake, buildings can feel forces that are 2 to 3 times heavier than what they normally handle. This means we need to carefully check how buildings will react to these forces.
Ground Motion Frequency: Each building has a natural frequency, which is like its own unique "heartbeat." If this frequency is close to the frequency of an earthquake’s shaking, the building can start to shake too much, which is called resonance.
Safety Rules: There are important guidelines, like ASCE 7, that recommend a safety level of at least 0.1g for buildings in areas with high earthquake risk. This helps keep buildings safe and makes sure they stay strong.
In the end, doing dynamic analysis is crucial. It helps stop buildings from failing during an earthquake and keeps everyone inside safe.