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Electrons do not move in straight lines. They follow a path that is influenced by electric and magnetic fields, as well as other factors such as collisions with atoms or molecules. The motion of electrons is often described as a random, zig-zag path, especially in materials with high resistance.
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How does an object behave when placed in a uniform electric field with straight, parallel, and uniformly spaced field lines?
When an object is placed in a uniform electric field with straight, parallel, and uniformly spaced field lines, it will experience a constant force in the direction of the field lines. This force will cause the object to move in a straight line in the direction of the field lines, with a constant acceleration.
Do the electrons move?
Yes, electrons move within an atom as they orbit the nucleus. In conductive materials, electrons can also move freely, creating an electric current.
How can a laser be used to ensure the precise alignment of straight lines in writing?
A laser can be used to ensure precise alignment of straight lines in writing by projecting a straight beam of light onto the writing surface, serving as a guide for keeping the lines straight and aligned.
Does tornadoes move in strait lines?
No, tornadoes do not move in straight lines. They typically follow a twisting and turning path as they travel across the ground. The path of a tornado can vary in direction and can change rapidly as the storm moves.
Why Cathode rays travel in straight lines?
Cathode rays travel in straight lines because they are composed of charged particles (electrons) that are negatively charged, and they are repelled by like charges. This repulsion causes the cathode rays to travel in straight paths from the cathode to the anode in a vacuum tube without deviating from their path.
