like charges attract unlike charges repel
The behavior of the electric field outside a capacitor is that it is weak and tends to spread out in all directions.
The behavior of the electric field outside a solenoid is generally weak and negligible. The majority of the electric field lines are confined within the solenoid, resulting in minimal influence outside of it.
The behavior of the electric field outside a sphere is that it behaves as if all the charge of the sphere is concentrated at its center. This means that the electric field outside the sphere follows the same pattern as if the entire charge of the sphere was located at its center.
The electric field around an infinite cylinder is uniform and perpendicular to the surface of the cylinder.
A harmonic oscillator in an electric field experiences a force that depends on its position. This force causes the oscillator to move back and forth in a periodic manner, similar to its behavior in the absence of an electric field. The presence of the electric field can alter the frequency and amplitude of the oscillator's motion, leading to changes in its behavior.
The relationship between work and electric potential energy influences the movement of charged particles in an electric field. When work is done on a charged particle, its electric potential energy changes, affecting its behavior in the electric field. Charged particles will move in a direction that minimizes their electric potential energy, following the path of least resistance. This relationship helps determine the trajectory and speed of charged particles in an electric field.
A charged particle in an electric field will experience a force that causes it to accelerate in the direction of the field if the charge is positive, or in the opposite direction if the charge is negative. This behavior is described by Newton's laws of motion.
Photo electric emission
Electrostatics is the branch of physics that deals with the study of stationary electric charges and their interactions. It focuses on the behavior of electric charges at rest and their influence on surrounding objects. Key concepts include electric fields, Coulomb's law, and electric potential.
An arrangement of electric charges or a current can create electric fields, magnetic fields, and electromagnetic fields. These fields are fundamental in understanding and explaining the behavior of electricity and magnetism in various phenomena and devices.
Electric charges are surrounded by an electric field, which is a region of space where other charges can experience a force. The strength of the electric field depends on the magnitude of the charge creating it and the distance from the charge. Electric fields play a fundamental role in understanding and analyzing the behavior of electric charges.
A magnet cannot stop an electric current, but it can influence the flow of the current. Moving a magnet near a wire carrying an electric current can induce a voltage in the wire, which can affect the behavior of the current.