there's friction between saddle and butt, between shoes and pedals, between tire and rim, between tire and ground.
Mr Juggles is a clown that juggles balls while riding a unicycle.
Only if you're careful. Oh, and you have to believe you can.
42 because ice cream has 3 legs
There is friction between the rubber tires and the road or other riding surface.There resistance to the rider moving through the air.The bicycle's chain, pedals, gears, etc all develop frictional forces.
this is very inapropriate. i get paid 5 bucks and hour and i dont want to answere stupid questions like this one. ): ):
as rod machado says in Microsoft flight simulator 2004, "if flying an airplane is like riding a bicycle, then flying a helicopter is like riding a unicycle... while juggling" so... yes.
applied, normal, and friction
Pressure
Well, you see, if you ever come face-to-face with a unicorn, let me know. But some talents are that they can juggle cows while riding on a unicycle. They can also yodel while pogo-sticking! Hope this helped!
Yes, this is possible. Clowns are specially trained to perform what seems to us like amazing tricks, including juggling while riding a unicycle. Of course, not every clown can do it well, and it is a difficult trick; I enclose a link to a video of Buddy, a Canadian clown who mastered it.
This is a very good question. A conservative force is defined as a force that doesn't remove energy from a system. Such forces as a spring force are conservative. However, wherever a frictional force is exerted, heat is produced. It takes energy to make heat, and the energy comes from the kinetic energy of whatever objects have frictional forces exerted upon them. A frictional force will eventually remove all of the kinetic energy from a system. However, a frictional force is constant. The force of friction is defined as the coefficient of friction times mass times the gravitational constant. (The coefficient of friction is represented as the greek letter mu). Regardless of the remaining Kinetic energy in a system, the frictional force will not change, thus a frictional force is constant, but not conservative. Hope this helps whoever asked this question! --An AP PHYSICS STUDENT
The speed with which an object moves depends on its mass, any force applied on it (including frictional forces, which slow it down), and its previous history - i.e., if it has been moving before, it will have the tendency to continue moving, at least for a while, until frictional forces slow it down.