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Damped Simple Harmonic Motion Video Lecture | Physics Class 11 - NEET

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FAQs on Damped Simple Harmonic Motion Video Lecture - Physics Class 11 - NEET

1. What is damped simple harmonic motion?
Ans. Damped simple harmonic motion refers to a type of oscillatory motion where the amplitude of the oscillations gradually decreases over time due to the presence of a damping force. This damping force acts in the opposite direction to the motion, resulting in the system losing energy and eventually coming to rest.
2. How does damping affect simple harmonic motion?
Ans. Damping affects simple harmonic motion by reducing the amplitude of the oscillations over time. The presence of a damping force results in the system losing energy, causing the oscillations to gradually decrease in size until they eventually stop. The rate at which the amplitude decreases depends on the amount of damping present in the system.
3. What are the different types of damping in simple harmonic motion?
Ans. There are three types of damping commonly observed in simple harmonic motion: underdamping, critical damping, and overdamping. Underdamping occurs when the damping force is relatively small, causing the system to oscillate with a gradually decreasing amplitude. Critical damping occurs when the damping force is just enough to bring the system to rest in the shortest possible time without any oscillations. Overdamping occurs when the damping force is excessive, causing the system to return to equilibrium without oscillating.
4. What are some examples of damped simple harmonic motion in real life?
Ans. Damped simple harmonic motion can be observed in various real-life examples. Some common examples include a swinging pendulum gradually coming to rest due to air resistance, a car's suspension system absorbing the vibrations caused by uneven roads, and the motion of a spring-mass system in a viscous fluid.
5. How can the damping factor be determined in damped simple harmonic motion?
Ans. The damping factor in damped simple harmonic motion can be determined by analyzing the motion of the system and measuring the rate at which the amplitude of the oscillations decreases. This can be done by plotting a graph of the system's displacement versus time and observing the shape of the curve. The rate of decrease in amplitude can also be quantified using mathematical equations derived from the system's differential equation.
98 videos|388 docs|105 tests
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