Friction is a force that always works against motion. Just imagine pushing a box
across the floor. Does it slow down? Yes. This is because Friction is working against
the forward motion of the box.
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Let's think about this, and maybe we can figure it out . . .
Let's assume that friction works in the direction of motion. If that's true, then we're
in great shape! All we have to do is give something a little tiny nudge, just enough
to start it moving, and then friction would keep it moving. Or, if there wasn't enough
friction to keep it moving, then we could always make more friction . . . just set the
little object on a big board with sandpaper on the bottom, and then there'd be plenty
of friction, surely enough to keep it moving once we got it started.
That's not the way things work. So the friction must be acting in the other direction,
against the motion.
This analysis brought to you by: Reductio Ad Absurdum, and his orchestra.
The force of kinetic friction always acts in the direction opposite to the direction of an object's motion. It resists the motion of the object by acting in the direction that opposes its velocity.
The force that always acts opposite to the direction of the motion of an object is friction. Friction is a force that resists the motion between two surfaces in contact with each other. It acts in the direction opposite to the direction of motion, slowing down or stopping the object.
The force that acts in the opposite direction of motion is friction. Friction is a force that opposes the relative motion or tendency of such motion between two surfaces in contact. It acts to resist the motion of an object moving across a surface.
Friction provides a retarding force. It always acts in the exact opposite direction of the motion of the object.
The force that pushes an object in the opposite direction of its motion is known as friction. Friction is the resistance that occurs when two surfaces come in contact and it acts in the direction opposite to the object's motion.
The direction of friction is opposite to the direction of motion. This means that when an object is moving in one direction, the friction force is acting in the opposite direction, trying to slow down or stop the object.
Friction always acts opposite to the direction of motion.
The force of friction is exerted in the direction opposite the direction of motion, between two surfaces that are in contact with each other. It acts to hinder motion and opposes the relative motion between the surfaces.
it acts in the opposite direction of motion or force
The direction of the force of kinetic friction is opposite to the direction of an object's motion. This is due to the fact that kinetic friction acts to oppose the relative motion between the object and the surface it is moving on. As the object moves forward, the kinetic friction force acts in the opposite direction in an effort to slow down or stop the object.
It is in most cases opposite to the direction of motion.
Friction provides a retarding force. It always acts in the exact opposite direction of the motion of the object.
The "force" of friction is always exactly opposite the direction of motion.
The force of kinetic friction acts in the direction opposite to the direction of an object's motion. This frictional force works to resist the movement of an object over a surface, causing it to slow down or come to a stop.
The force of kinetic friction always acts in the direction opposite to the direction of an object's motion. It resists the motion of the object by acting in the direction that opposes its velocity.
The force that always acts opposite to the direction of the motion of an object is friction. Friction is a force that resists the motion between two surfaces in contact with each other. It acts in the direction opposite to the direction of motion, slowing down or stopping the object.
The force that acts in the opposite direction of motion is friction. Friction is a force that opposes the relative motion or tendency of such motion between two surfaces in contact. It acts to resist the motion of an object moving across a surface.