How Does a Slow Spinning Gyroscope Behave Compared to a Fast One?

In summary, a slow spinning gyroscope behaves similarly to a fast spinning gyroscope as long as the force applied is the same. The equation for precession speed is an approximation and may not hold if the rotation rate is significantly lower than the computed precession rate. If suspended by one end of the axis under the action of gravity, the gyroscope will simply fall down. However, the description of its movement as a rotation about a fixed axis of symmetry may not be accurate if it is precessing rapidly.
  • #1
basheer uddin
30
2
how does a slow spinning gyroscope behave?
does it behave as a normal fast spinning gyroscope would?
if the mass of the gyro is large so that the angular momentum equals a fast spinning gyro does its precession equal a fast moving one?
can anybody explain?please.
 
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  • #2
does it behave as a normal fast spinning gyroscope would?
Depends on what you are doing.

if the mass of the gyro is large so that the angular momentum equals a fast spinning gyro does its precession equal a fast moving one?
If the force is the same: yes. This can be seen from the equation for the precession speed.
 
  • #3
mfb said:
Depends on what you are doing.

If the force is the same: yes. This can be seen from the equation for the precession speed.

This holds so long as the precession rate is small compared to the rotation rate. If the moment of inertia of the rotating object is made larger and larger while angular momentum and applied torque are held fixed, the precession rate remains constant, but the rotation rate decreases.

The equation for precession speed is an approximation. If rotation rate is low compared to the computed precession rate, it fails to hold, even approximately.
 
Last edited:
  • #4
so does it fall down if suspended by one end of the axis under the action of gravity or does it precess to one side?
 
  • #5
basheer uddin said:
so does it fall down if suspended by one end of the axis under the action of gravity or does it precess to one side?

It will simply fall down.

On reflection overnight, I realized that what I wrote in post 3 is not correct. MFB is right The equation for precession -- as a rate of change in angular momentum under a torque at right angles to that angular momentum is exact. It is not an approximation.

A problem is the description of the movement of the gyroscope as a rotation about a fixed axis of symmetry where that axis is itself moving according to a precession. If the gyroscope is precessing rapidly enough to matter then its angular momentum vector will not align perfectly with the axis of symmetry. It will have a component corresponding to the "precession". In other words, when it precesses, the angular momentum of your gyroscope only approximately lines up with the axis that goes through its bearings.

A torque that you apply perpendicular to the axle of a precessing gyroscope will not be at right angles to its angular momentum.
 

1. What is a slow spinning gyroscope?

A slow spinning gyroscope is a device that consists of a spinning wheel or disc mounted on an axis, which maintains its orientation and resists changes in its direction of rotation. It is often used in navigation and stabilization systems.

2. How does a slow spinning gyroscope work?

A slow spinning gyroscope works based on the principle of angular momentum. When the wheel or disc spins, it creates a force that keeps it rotating in the same direction, even when external forces act on it. This allows it to maintain its orientation and resist changes in its direction of rotation.

3. What are some common applications of slow spinning gyroscopes?

Slow spinning gyroscopes have a wide range of applications, including navigation systems in airplanes, ships, and spacecraft, stabilizers for cameras and drones, and motion sensors in smartphones and gaming controllers.

4. Can a slow spinning gyroscope ever stop spinning?

Technically, yes, a slow spinning gyroscope can eventually stop spinning due to external forces such as friction and air resistance. However, it is designed to maintain its rotation for a long period of time, making it highly reliable for its intended purposes.

5. What are the benefits of using a slow spinning gyroscope?

There are several benefits of using a slow spinning gyroscope, including its ability to maintain a stable orientation, its resistance to external forces, and its precision in measuring angular motion. It is also compact, durable, and has a long lifespan, making it a valuable tool in various industries and technologies.

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