Confusion About Oscillating Mass

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Thread starter person123
Start date Jun 4, 2017
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Confusion Crankshaft Mass Mechanics Oscillating Oscillation

In summary: Then the energy stored in the spring would be responsible for maintaining the oscillation.Yes, I'm assuming all other parts are without mass. Isn't that contradictory to ibix's argument, or is this just a misunderstanding on my part?If the block is not a mass, then it would not be conserved in the absence of an applied torque.

Jun 4, 2017

person123

jbriggs444 said:

How are you going to manage infinite acceleration with a material with a finite strength to mass ratio?

I see what you meant.

<h2>1. What is an oscillating mass?</h2><p>An oscillating mass refers to a physical system that undergoes repeated back-and-forth or up-and-down movements around a fixed point due to the influence of a restoring force.</p><h2>2. How does an oscillating mass work?</h2><p>An oscillating mass works by converting potential energy into kinetic energy and vice versa. The mass is pulled away from its equilibrium position by a force, and then the restoring force brings it back towards equilibrium. This back-and-forth motion continues until the energy is dissipated or the force is removed.</p><h2>3. What factors affect the oscillation of a mass?</h2><p>The oscillation of a mass is affected by several factors, including the mass of the object, the strength of the restoring force, and the initial displacement from equilibrium. Other factors such as air resistance and friction can also impact the oscillation.</p><h2>4. Can an oscillating mass ever reach its equilibrium point?</h2><p>In theory, an oscillating mass can reach its equilibrium point if there is no energy loss to external factors. However, in real-world situations, energy is always lost due to factors such as friction and air resistance, so the mass will never reach its exact equilibrium point.</p><h2>5. What are some real-life examples of oscillating mass?</h2><p>Some common examples of oscillating mass include a pendulum, a spring-mass system, and a swing. Other examples include the motion of a diving board, a tuning fork, and a vibrating guitar string.</p>

Related to Confusion About Oscillating Mass

1. What is an oscillating mass?

An oscillating mass refers to a physical system that undergoes repeated back-and-forth or up-and-down movements around a fixed point due to the influence of a restoring force.

2. How does an oscillating mass work?

An oscillating mass works by converting potential energy into kinetic energy and vice versa. The mass is pulled away from its equilibrium position by a force, and then the restoring force brings it back towards equilibrium. This back-and-forth motion continues until the energy is dissipated or the force is removed.

3. What factors affect the oscillation of a mass?

The oscillation of a mass is affected by several factors, including the mass of the object, the strength of the restoring force, and the initial displacement from equilibrium. Other factors such as air resistance and friction can also impact the oscillation.

4. Can an oscillating mass ever reach its equilibrium point?

In theory, an oscillating mass can reach its equilibrium point if there is no energy loss to external factors. However, in real-world situations, energy is always lost due to factors such as friction and air resistance, so the mass will never reach its exact equilibrium point.

5. What are some real-life examples of oscillating mass?

Some common examples of oscillating mass include a pendulum, a spring-mass system, and a swing. Other examples include the motion of a diving board, a tuning fork, and a vibrating guitar string.