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Sliding friction is shown in hockey when you hit the puck. The puck has friction against the ice (but there isn't much).
Yes.
On the ice, a hockey puck is pushing against much less surface friction, so it will slide with relative ease. On the street, a puck is forced to push against the pavement which it cannot do very well causing it to either stop or bounce across the surface.
Non-sequitor. The friction of the ice, although minimal, causes a puck to travel at a decreasing speed. Given no friction, a puck could be said to have momentum equilibrium.
yes, it just has less friction across the table from the air pushing up on the puck through the holes.
kinetic
kinetic energy
Sliding friction is shown in hockey when you hit the puck. The puck has friction against the ice (but there isn't much).
one is a hockey puck sliding down the ice
A skateboard rolling across the street A hockey puck sliding across the ice
If you have eliminated all resistance then the initial force will be enough.
Yes.
As far as I am aware, there is something called Kinetic energy, the movement of the puck causes kinetic energy.
a puck
A hockey puck
THE PUCK, you play hockey to get the puck.
Hit the puck across the goal line and into the back of the net.