Survey
* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project
Download annot_001_16.pdf
Document related concepts
no text concepts found
Transcript
Pendulum: Problem: Consider the simple pendulum (mass at the end of a rod or string) as shown below. If we start from the rotational (torque) version of Newton’s 2nd Law of Motion, Section 3.4 Copyright©Arunabha Biswas 177 Section 3.4 Copyright©Arunabha Biswas 178 Find the general solution of the linearized DE. Use your solution to predict the period of the oscillation of a pendulum. Section 3.4 Copyright©Arunabha Biswas 179 Comment: What does it mean about the swinging of a pendulum for larger angles? Section 3.4 Copyright©Arunabha Biswas 180 Mass-spring system with external force: Problem: Write down the DE for for this system when Fext = A sin (Bt) Section 3.4 Copyright©Arunabha Biswas 181 Problem: Sketch an RLC circuit, with voltage supply −A (electromotive force or EMF) of E(t) = cos (Bt), and write B down the DE for the current in the circuit. Example: Radio waves, AC Section 3.4 Copyright©Arunabha Biswas 182 Comment on the similarity between the mathematical model of the mass-spring system and of the RLC circuit. Section 3.4 Copyright©Arunabha Biswas 183 Unforced motion: Setting Fext = 0, review the effect of increasing the friction coefficient c on the solution yc . What is yp solution in a mass-spring system? And why it is called so? Section 3.4 Copyright©Arunabha Biswas 184
Related documents