they will repel.
They would be "oppositely" charged. In other words, one object would need to be positive and the other would need to be negative.
Beta particles are electrons that have been emitted from the nucleus during beta decay. As negatively charged particles, they are attracted to positively charged electric fields due to the fundamental principle of opposite charges attracting each other. This attraction causes the beta particles to move towards the positive electric field.
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.
Electrical energy is energy that's stored in charged particles within an electric field. Electric fields are simply areas surrounding a charged particle. In other words, charged particles create electric fields that exert force on other charged particles within the field. The electric field applies the force to the charged particle, causing it to move - in other words, do work.
One way to produce an electric field is through the presence of charged particles. When charged particles, such as electrons or protons, are stationary or in motion, they generate an electric field around them. Another way to produce an electric field is through changing magnetic fields. According to Faraday's law of electromagnetic induction, a changing magnetic field induces an electric field, causing the flow of electric charges.
The electric field, which permeates all of space, is how electrically charged particles, like the electron, proton, W+ , W-, and all the quarks, interact and produce all the phenomena associated with electromagnetism. Also, it gives rise to electromagnetic radiation. By definition, E.M. Radiation is caused by a disturbance of the field by a charged particle.
Yes, objects with larger amounts of charge generally have stronger electric fields than objects with smaller amounts of charge. The strength of an electric field is directly proportional to the amount of charge that produces it.
an accelerating charged particle or synchronized electric and magnetic fields
The particles that make up an object with have both types of energy because they are at some height (gravitational potential), vibrating back and forth (kinetic energy, and made of charged particles electric potential because of electric fields).
An electric field exerts a force on anything with an electrical charge. Charged objects or particles will experience a force when placed in an electric field due to the interaction between the electric field and the charge.
Charged objects are surrounded by an electric field, which exerts a force on other charged objects within its influence. The direction and strength of the electric field depend on the magnitude and sign of the charge creating it.
No. Any charged object ... the positive and negative ions in table salt, for example... emits an electric field.