How can you move in frictionless surface? Newton's Third Law of Motion: For every action there is an equal and opposite reaction.
This law is exemplified by what happens if we step off a boat onto the bank of a lake: as we move in the direction of the shore, the boat tends to move in the opposite direction (leaving us facedown in the water, if we aren't careful!).
Do a Google search for "Newton's 3 laws" and choose the web site below.http://csep10.phys.utk.edu/astr161/lect/history/newton3laws.html
I have a home-aid hovercraft. Hole a basketball in your hands. Throw the basketball forward and you go backwards.
Try something like this on ice with a little water sprayed on it to make it really slip….pery! Just be careful you don't fall down .Use a couple spotters.
technicall, you cannot
yes
If the surface is smooth then it is almost frictionless. Hence the body will continue to move with constant velocity. However the object continues in a circular path and the weight is thus the centripetal force. It is assumed that the surface is very large)
The pleura is a sac around the lungs. The pericardium is a sac around the heart. They both promote frictionless environments in which the organs can move.
If you are in a frictionless room, you can't push off of anything to exert enough force to move away. However, if you have a bottle of compressed gas or liquid, the force of the escaping gas from the container will exert a reaction force to push you where you need to go. If you are near a wall, you can push off of that.
the earth is too large to move
No.
yes
no. It will slow down because there is nothing to power it to keep it going... unless it is on a frictionless surface, which is not possible on Earth
In free space or on a frictionless surface, it takes no force to move something. Where there is friction, the ratio of (force necessary to start it moving horizontally)/(the object's weight) is the coefficient of static friction on the horizontal surface.
By having a force act on that person.
force?
You have to get rid of mass. Throw things, spit, fire a gun if you have one, etc. Since momentum is conserved, every time you get rid of something, you move across the ice in the opposite direction.
yes
If the surface is smooth then it is almost frictionless. Hence the body will continue to move with constant velocity. However the object continues in a circular path and the weight is thus the centripetal force. It is assumed that the surface is very large)
It is impossible to create a frictionless surface upon which a ball will roll without stopping. This is firstly because no two surfaces have a fritional constant of zero in that there is no surface which is perfectly smooth. Also, even if there were a true frictionless surface, a ball would not be able to roll along it forever due to air resistance.
It is impossible to create a frictionless surface upon which a ball will roll without stopping. This is firstly because no two surfaces have a fritional constant of zero in that there is no surface which is perfectly smooth. Also, even if there were a true frictionless surface, a ball would not be able to roll along it forever due to air resistance.
Aren't you late for sixth period?