The answer will depend on which plate. And since you have not bothered to provide that information, I cannot provide a sensible answer.
By definition, friction is opposite of the direction of motion.
The direction of the force of friction is opposite of the direction of the motion.
Friction always acts opposite to the direction of motion.
The direction of the force of friction is such that it opposes the direction of motion that an object would move if there were no frictional force acting on the object.
Friction acts in the opposite direction of the object's motion
That's going to depend heavily onwhich plate you want to talk about.
All types of friction act opposite to the direction of motion but static friction is the friction present before motion occurs.
A force acting on the ball, at an angle to its line of motion, will cause its direction of motion to change.
By definition, friction is opposite of the direction of motion.
The direction of the force of friction is opposite of the direction of the motion.
The motion is parallel to wave direction The motion is both parallel and perpendicular to wave direction. The motion is perpendicular to wave direction.
the horizontal motion and the vertical motion are independent of each other
In the direction of
It is in most cases opposite to the direction of motion.
Yes, acceleration is present. Acceleration is a change in speed and/or direction of motion. Even if speed is constant, acceleration is present if the path of the motion is anything but straight.
Acceleration in motion refers to a change in speed or direction of that object's motion. So a type of motion in which speed and direction do not change is a motion in which the acceleration is constant (i.e. unchanging).
it acts in the opposite direction of motion or force