Electrons revolve around the nucleus of atoms in orbits.
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∙ 9y agoElectrons move in a random direction within an atom due to their high speed and energy levels. In a conductor, electrons move in response to an applied electric field, flowing from the negative terminal to the positive terminal of a voltage source.
No, direction does not affect uniform motion. Uniform motion is characterized by constant speed and direction, so as long as the speed remains constant, changing direction will not impact the uniform motion.
The direction of motion can be determined by observing the change in position of an object over time. If the position is increasing, the object is moving in the positive direction; if it is decreasing, it is moving in the negative direction. Additionally, the sign of the velocity can indicate the direction of motion: positive for forward motion and negative for backward motion.
Friction acts in the direction opposite to the direction of an object's motion. It always opposes the motion of the object, causing it to slow down or stop.
The motion in the vertical direction is independent of the motion in the horizontal direction. This means that an object can move vertically without affecting its horizontal motion and vice versa. The two motions can occur simultaneously without one influencing the other.
Electrons align in a magnet due to their inherent magnetic moment, which arises from their spinning motion and orbital angular momentum. In a magnet, the magnetic moments of individual electrons align in the same direction, creating a magnetic field.
becuase electrons are always motion in outer orbital
Friction opposes the direction of motion; it acts in the opposite direction to the motion of an object.
No, direction does not affect uniform motion. Uniform motion is characterized by constant speed and direction, so as long as the speed remains constant, changing direction will not impact the uniform motion.
It is in most cases opposite to the direction of motion.
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).
The direction of motion can be determined by observing the change in position of an object over time. If the position is increasing, the object is moving in the positive direction; if it is decreasing, it is moving in the negative direction. Additionally, the sign of the velocity can indicate the direction of motion: positive for forward motion and negative for backward motion.
it acts in the opposite direction of motion or force
Friction always acts opposite to the direction of 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 acts in the direction opposite to the direction of an object's motion. It always opposes the motion of the object, causing it to slow down or stop.
The motion in the vertical direction is independent of the motion in the horizontal direction. This means that an object can move vertically without affecting its horizontal motion and vice versa. The two motions can occur simultaneously without one influencing the other.
Electrons align in a magnet due to their inherent magnetic moment, which arises from their spinning motion and orbital angular momentum. In a magnet, the magnetic moments of individual electrons align in the same direction, creating a magnetic field.