How can visualizing a spinning disk help explain the workings of a gyroscope?

  • Thread starter Thread starter crazycyrus
  • Start date Start date
  • Tags Tags
    Gyroscope Work
AI Thread Summary
Visualizing a spinning disk can aid in understanding gyroscope mechanics by illustrating how tilting the axle affects the motion of a point on the disk's circumference. As the disk rotates, raising one end of the axle causes the point to move left and right in addition to its circular path. This motion demonstrates the energy required to overcome inertia when attempting to tilt the gyroscope. While mathematical explanations are straightforward, achieving an intuitive grasp of these concepts can be challenging. Overall, the spinning disk analogy effectively highlights the complexities of gyroscopic stability and motion.
crazycyrus
Messages
3
Reaction score
0
Can anybody Please post a link about the working of a Gyroscope.(detailed explanation,already seen how stuff works) I am simply not getting it.
 
Engineering news on Phys.org
crazycyrus said:
Can anybody Please post a link about the working of a Gyroscope.(detailed explanation,already seen how stuff works) I am simply not getting it.

How about wikipedia? Some useful animations are included with the vector math:

http://en.wikipedia.org/wiki/Gyroscope

.
 
Search for Dr. Walter Lewin's physics lectures on youtube. There are many in the subject of mechanics, but I'm not sure which one in particular addresses gyroscopes. He is a great teacher, IMO, and does an excellent job explaining gyroscopes. However, I still don't have an intuitive understanding of it. The mathematical understanding is pretty straightforward, and he does a great job with it.
 
The closest I've ever been able to come to an 'intuitive' understanding of the ability of a gyroscope to hold its position is as follows:
-
Imagine a spinning disk on an axle. Imagine yourself holding the end of each axle in front of you while the disk rotates. The axle is horizontal, one end in each hand, the disk in front of you at eye level. You basically can see the edge of the disk. Pick a point on the circumference of the disk, imagine it as a red dot or something. Now imagine it in slow motion so the red dot is revolving around at about one or two revolutions per second. Pretty easy to visualize right? Just a red dot going around in circles. Now tilt the axle by raising one hand and lowering the other and watch what happens to the red dot. It continues to rotate in a circle, but it also now has to move from left to right with each revolution. When the red dot is on one side (upward moving side) it is moving to the left for instance. But when the red dot is on the other side (downward moving side) it has to move to the right. This left to right motion I refer to is only ocurring when you try to tilt the axle. It takes energy to continually move something back and forth overcoming inertia constantly. This is where the energy goes that you expend overcoming the resistance to tilting the axle. It may be difficult to visualize, I tend to have the ability to visualize mechanical things in my mind with little difficulty so I may also under explain things. Not sure how else to describe it.
 

Thread 'HP Required to move a robot 10meters at 1.5m/sec'

I need some assistance with calculating hp requirements for moving a load. - The 4000lb load is resting on ball bearing rails so friction is effectively zero and will be covered by my added power contingencies. Load: 4000lbs Distance to travel: 10 meters. Time to Travel: 7.5 seconds Need to accelerate the load from a stop to a nominal speed then decelerate coming to a stop. My power delivery method will be a gearmotor driving a gear rack. - I suspect the pinion gear to be about 3-4in in...
View full post »
Thread 'Calculate minimum RPM to self-balance a CMG on two legs'

Thread 'Calculate minimum RPM to self-balance a CMG on two legs'

Here is a photo of a rough drawing of my apparatus that I have built many times and works. I would like to have a formula to give me the RPM necessary for the gyroscope to balance itself on the two legs (screws). I asked Claude to give me a formula and it gave me the following: Let me calculate the required RPM foreffective stabilization. I'll use the principles of gyroscopicprecession and the moment of inertia. First, let's calculate the keyparameters: 1. Moment of inertia of...
View full post »
Thread 'Turbocharging carbureted petrol 2 stroke engines'

Thread 'Turbocharging carbureted petrol 2 stroke engines'

Hi everyone, online I ve seen some images about 2 stroke carbureted turbo (motorcycle derivation engine). Now.. In the past in this forum some members spoke about turbocharging 2 stroke but not in sufficient detail. The intake and the exhaust are open at the same time and there are no valves like a 4 stroke. But if you search online you can find carbureted 2stroke turbo sled or the Am6 turbo. The question is: Is really possible turbocharge a 2 stroke carburated(NOT EFI)petrol engine and...
View full post »

Similar threads

Gyroscopic effect in quadcopters
Replies
13
Views
3K
Minimal rotational kinetic energy for a gyroscope to precess
Replies
33
Views
3K
I Will the spinning gyroscope make the plumb fall slower?
Replies
3
Views
1K
I I never fully understood gyroscopic precession - toppling gyroscopes
Replies
10
Views
452
I Gyroscopic precession of a spin-stabilized bullet
Replies
10
Views
4K
Gyroscopic Water Wave Energy Converters
Replies
15
Views
2K
I What does weight actually do in gyroscopic precession?
Replies
7
Views
2K
I Does the classical theory of angular momentum explain this video of a unicycle robot?
Replies
4
Views
2K
I Precession of a gyroscope in freefall
Replies
10
Views
3K
Can a CMG System Help Create a Self-Balancing Bicycle with Dual Flywheels?
Replies
2
Views
3K

Hot Threads

Recent Insights

Back
Top