It is slipping across the ice.
Sooo I guess that counts as a force.
Yes theres a force agenst it.
No there is just less friction on the ice and the force is from the hockey stick
Yes it is sliding across the ice and the ice is smooth so there isn't much friction.
There is no force its the ice slipping it around.
Because there is less friction in the ice.
Yes, The force is the ice, it keeps the puck moving at the speed the hockey stick gives it.
Also inertia and acceleration are acting on it.
It is still going until an outside force acts upon it and stops it or it will slow down and stop.
Yes,Because puke is sliding across the ice.
Puck*
Yes because it stays in motion so a force must be acting on it.
If it's staying in motion, and friction isn't stopping it, than I think a force is acting upon it.
The ice has less friction therefore making it able to keep the puck at a nearly constant speed. The force is not much friction, and the ice.
It is INTERIA with ACCELERATION!
Yes, the force is the ice. It is keeping the puck in movement.
Yes, when sliding across the ice, the ice is smooth so there isn't much friction.
Yes the force that started it but it doesn't keep it moving.
Yes it is staying in motion because when you hit the puck it slides across the ice and makes it so when it hits its target it slows down or stops completely
Yes, the push from the hockey stick starts the force, but the ice (which has no force) keeps it moving via inertia
Yes, sliding force keeps it in motion.
It think it is because like sliding force is keeping it that way.
Yes, the force is the hockey stick pushing the puck.
Yes, because sliding keeps force in motion.
I think it has something to do with inertia and acceleration...
Yes because the stick hits the puck and the ice is slippery so it stays in motion.
Yes, inertia is keeping the puck moving.
stuff and more thinysssssssssssssssssssssssssssssssssssssssssss
a sliding force is keeping it in motion.
there is a force pushing the hockey puck across the ice it is being pushed.loganm
Well Mr. Ruby, that is a very interesting question. A question I don't know the answer to. (I'll reply after the followup.)
When the puck is sliding on the ice, there's no force being exerted on it. Inertia keeps it going.
Yes and explanations and reasons.
yes
Its INERTIA, NO FORCE AT ALL!! AHA SCIENCE!!
No. A inertia is the force acting on the puck. :D
Yes, Sliding friction is making this puck move across the ice because the human that hit the puck gave it a push to go.
NO FORCE AAAAAAA
Yes the force of the puck is pushing it across the ice.
Yes, Sliding friction is making this puck move across the ice because the human that hit the puck gave it a push to go.Gavin MacDonald
Yes, The force of the stick is pushing the puck.
Sliding friction is acting on the hockey puck because you hit it with a hockey stick.
sliding friction.
the ice keeps it moving -Desi
Yes for a while because it has frictions what then it comes to a stop.
Yes, The force of the stick pushed the puck!.
Yes because there a person behind consent, but only when needed.
no because he only touched it once.kassie
Yes, the force is keeping it in motion, but it isn't a consist force. The interia keeps the puck moving
Yes, the force is the ice and the ice keeps the puck moving
yes it was force that pushes it along
More the force on the push to make th puck go is further it goes.
There is no force acting upon it it's inertia.
Please leave your first name with your comment. Thanks Mr. Ruby
It is slipping across the ice.
ReplyDeleteSooo I guess that counts as a force.
DeleteYes theres a force agenst it.
ReplyDeleteNo there is just less friction on the ice and the force is from the hockey stick
ReplyDeleteYes it is sliding across the ice and the ice is smooth so there isn't much friction.
ReplyDeleteThere is no force its the ice slipping it around.
ReplyDeleteBecause there is less friction in the ice.
DeleteYes, The force is the ice, it keeps the puck moving at the speed the hockey stick gives it.
ReplyDeleteAlso inertia and acceleration are acting on it.
DeleteIt is still going until an outside force acts upon it and stops it or it will slow down and stop.
ReplyDeleteYes,Because puke is sliding across the ice.
ReplyDeletePuck*
DeleteYes because it stays in motion so a force must be acting on it.
ReplyDeleteIf it's staying in motion, and friction isn't stopping it, than I think a force is acting upon it.
ReplyDeleteThe ice has less friction therefore making it able to keep the puck at a nearly constant speed. The force is not much friction, and the ice.
ReplyDeleteIt is INTERIA with ACCELERATION!
DeleteYes, the force is the ice. It is keeping the puck in movement.
ReplyDeleteYes, when sliding across the ice, the ice is smooth so there isn't much friction.
ReplyDeleteThe ice has less friction therefore making it able to keep the puck at a nearly constant speed. The force is not much friction, and the ice.
ReplyDeleteYes the force that started it but it doesn't keep it moving.
ReplyDeleteYes it is staying in motion because when you hit the puck it slides across the ice and makes it so when it hits its target it slows down or stops completely
ReplyDeleteYes, the push from the hockey stick starts the force, but the ice (which has no force) keeps it moving via inertia
ReplyDeleteYes, sliding force keeps it in motion.
ReplyDeleteIt think it is because like sliding force is keeping it that way.
ReplyDeleteYes, the force is the hockey stick pushing the puck.
ReplyDeleteYes, because sliding keeps force in motion.
ReplyDeleteI think it has something to do with inertia and acceleration...
ReplyDeleteYes because the stick hits the puck and the ice is slippery so it stays in motion.
ReplyDeleteYes, inertia is keeping the puck moving.
ReplyDeleteYes, sliding force keeps it in motion.
ReplyDeletestuff and more thinysssssssssssssssssssssssssssssssssssssssssss
ReplyDeleteYes it is sliding across the ice and the ice is smooth so there isn't much friction.
ReplyDeletea sliding force is keeping it in motion.
ReplyDeletethere is a force pushing the hockey puck across the ice it is being pushed.
ReplyDeleteloganm
Yes, sliding force keeps it in motion.
ReplyDeleteWell Mr. Ruby, that is a very interesting question. A question I don't know the answer to. (I'll reply after the followup.)
ReplyDeleteWhen the puck is sliding on the ice, there's no force being exerted on it. Inertia keeps it going.
DeleteYes and explanations and reasons.
ReplyDeleteyes
ReplyDeleteIts INERTIA, NO FORCE AT ALL!! AHA SCIENCE!!
ReplyDeleteNo. A inertia is the force acting on the puck. :D
ReplyDeleteYes, Sliding friction is making this puck move across the ice because the human that hit the puck gave it a push to go.
ReplyDeleteNO FORCE AAAAAAA
ReplyDeleteYes the force of the puck is pushing it across the ice.
ReplyDeleteYes, Sliding friction is making this puck move across the ice because the human that hit the puck gave it a push to go.
ReplyDeleteGavin MacDonald
Yes, The force of the stick is pushing the puck.
ReplyDeleteSliding friction is acting on the hockey puck because you hit it with a hockey stick.
ReplyDeleteYes, The force is the ice, it keeps the puck moving at the speed the hockey stick gives it.
ReplyDeletesliding friction.
ReplyDeletethe ice keeps it moving -Desi
ReplyDeleteWhen the puck is sliding on the ice, there's no force being exerted on it. Inertia keeps it going.
ReplyDeleteYes for a while because it has frictions what then it comes to a stop.
ReplyDeleteYes, The force of the stick pushed the puck!.
ReplyDeleteYes because there a person behind consent, but only when needed.
ReplyDeleteno because he only touched it once.
ReplyDeletekassie
Yes, the force is keeping it in motion, but it isn't a consist force. The interia keeps the puck moving
ReplyDeleteYes, the force is the ice and the ice keeps the puck moving
ReplyDeleteyes it was force that pushes it along
ReplyDeleteMore the force on the push to make th puck go is further it goes.
ReplyDeleteThere is no force acting upon it it's inertia.
ReplyDelete