Magnetic field.
The space around a charged object in which another charged object experiences an electric force is known as the electric field. The electric field at any point in space represents the force that would be experienced by a positive test charge if placed at that point. It exerts a force on any charged object within its influence.
The region around a charged object where the electric force is exerted on another charged object is called the electric field. It arises from the charged object creating a force on other charged objects in its vicinity based on their charges and distances from the source charge.
The region around a charged object where an electric force can be exerted on another object is called the electric field. This field exists around any charged object and exerts a force on any other charged object placed within it.
An electric field surrounds every charged object, exerting a force on other charged objects within its vicinity. This electric field extends infinitely in all directions, influencing how charged particles interact with one another.
Particles with opposite electric charges will attract one another. For example, a positively charged particle will attract a negatively charged particle. This is known as the principle of electric attraction.
The space around a charged object in which another charged object experiences an electric force is known as the electric field. The electric field at any point in space represents the force that would be experienced by a positive test charge if placed at that point. It exerts a force on any charged object within its influence.
The region in which a charged particle still experiences an electric force is called the electric field. An electric field is created by charged objects and extends into the space around them, influencing other charged particles within that region. The strength and direction of the electric field can vary depending on the distance from the source charge.
The region around a charged object where the electric force is exerted on another charged object is called the electric field. It arises from the charged object creating a force on other charged objects in its vicinity based on their charges and distances from the source charge.
The region around a charged object where an electric force can be exerted on another object is called the electric field. This field exists around any charged object and exerts a force on any other charged object placed within it.
An electric field surrounds every charged object, exerting a force on other charged objects within its vicinity. This electric field extends infinitely in all directions, influencing how charged particles interact with one another.
Particles with opposite electric charges will attract one another. For example, a positively charged particle will attract a negatively charged particle. This is known as the principle of electric attraction.
Electromagnetic field. An electric field.
When a charged object exerts an electric force on another charged object, it is due to the interaction of the electric fields surrounding the objects. Like charges repel each other, while opposite charges attract. This force follows Coulomb's Law, which describes the strength of the force based on the magnitudes and distances between the charges.
In the context of electromagnetism, the electric field is a region around a charged object where another charged object would experience a force. The force is the actual interaction between two charged objects due to their electric fields. In simpler terms, the electric field sets up the conditions for the force to act between charged objects.
An electron exerts a force on another charged particle through the electromagnetic force. This force arises due to the interaction of the electric fields surrounding the charged particles. Like charges repel each other, so electrons (which are negatively charged) repel other negatively charged particles.
The electric field inside a charged insulator is zero, while the electric field outside a charged insulator is non-zero.
An electric field occurs when there is a force acting on a charged particle in the space surrounding another charged object. This force causes the charged particle to experience a push or pull depending on the direction of the field. The strength and direction of the electric field depend on the magnitude and sign of the charges creating it.