The lecturer explains it in the next few minutes itself....what he means is that, if say a system has a very high natural frequency (say 1kHz) then the system comes to a steady state before the transient load is removed. Instead, if a system has a natural frequency of say 10Hz, then a load acting for 1 millisecond acts as a transient load for the system.
Awesome,rare to find 🙏🙏🙏
thank you for the lecture
greetings from Italy
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"I can have a system for which milliseconds load is like a static load." 42:10 Can anyone explain?
Something whose first natural frequency is 100 KHz. For example. A tiny crystal. A MEMS beam.
The lecturer explains it in the next few minutes itself....what he means is that, if say a system has a very high natural frequency (say 1kHz) then the system comes to a steady state before the transient load is removed. Instead, if a system has a natural frequency of say 10Hz, then a load acting for 1 millisecond acts as a transient load for the system.
Camera man is not well trained.