Solving Bicycle Problems and Understanding Gyroscopes: A Helpful Guide

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The discussion centers on understanding the physics behind a bicycle making a 180-degree turn while maintaining speed and balance. Key points include the role of forces exerted during a turn, such as momentum changes and the importance of leaning. Additionally, the concept of gyroscopes is highlighted, particularly how bicycle wheels contribute to stability. The original poster seeks further clarification and resources on these topics for a school project. The conversation emphasizes the interplay of physical forces in cycling dynamics.
Jir
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Hi everybody,

I'm new to this forum. I came here cause I need some help for my school project. If anybody can help me, I apreciate it allot.

The bicycle problem (now i think about it, bicycle can also be replaced by boat, plane or any other moving object):

The bicycle makes a turn of 180 degrees. And still has a large percentage (depending on radius, speed etc.) of its initial speed. I imagine the answer to be very simple but my little head just won't get it.

Also, for the same project I need to understand gyroscopes (the bicycle wheels) better. If somebody could explain this to me, or send a handy link it will also be much apreciated. However I think I'll search the forums a bit for that last one.

Thanks in advance, Jir
 
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What makes the bicycle turn 180 degrees? If you go around a banked curve, then the curve is exerting a force on you that changes your momentum.
 
Just the steering wheel and you who leans a bit to the left or right. For the rest the road is perfectly straight, horizontal and flat. I have already found out why the bike maintains its balance while going in circles.
 

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