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The space around a particle through which an electric charge can exert force is?
The space around a particle through which an electric charge can exert force is referred to as the electric field. This field exists at all points in space and its strength diminishes with distance from the charged particle according to an inverse square law. Other charged particles placed in this electric field will experience a force due to the interactions between their charges.
What electric charges do not need to be touching to exert forces on each other?
Electric charges do not need to be touching to exert forces on each other. They can interact through electric fields that extend through space, allowing charges placed at a distance from each other to exert forces on one another.
How do electric currents and magnets exert forces on each other?
When an electric current flows through a conductor, it creates a magnetic field around it. This magnetic field can exert a force on nearby magnets or other currents. Similarly, a moving magnet can induce an electric current in a conductor, which also creates an interaction between the two. This phenomenon is described by the principles of electromagnetism.
How does an electron exert a force on another charged particle?
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.
What is the definition off electrical enery?
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.
An electron exerts a force on another charged particle by?
An electron exerts a force on another charged particle by creating an electric field around itself. This electric field interacts with the charge of the other particle, causing a force to be exerted between them. This force follows Coulomb's law, which describes the magnitude and direction of the force based on the charges and the distance between the particles.
How can charges exert a force on an object?
Charges exert a force on an object through the electric field that surrounds them. When a charged object is placed near another object with a different charge or grounded, the electric field interacts with the charges in the object, resulting in an attractive or repulsive force.
Does an electric field exert a force on a beam of moving electrons?
Yes, an electric field exerts a force on a beam of moving electrons. The force exerted on the electrons by the electric field causes them to accelerate in the direction of the field. This acceleration can be measured and explained using Coulomb's law and the equation for the force on a charged particle in an electric field.
What electric field parallel or anti parallel to the electric dipole?
An electric field parallel to an electric dipole will exert a torque on the dipole, causing it to align with the field. An electric field anti-parallel to an electric dipole will also exert a torque on the dipole, causing it to rotate and align with the field in the opposite direction.
What is the difference between the magnetic and electric field?
The main difference between magnetic and electric fields is that electric fields are created by electric charges, while magnetic fields are created by moving electric charges. Electric fields exert forces on other electric charges, while magnetic fields exert forces on moving electric charges.
What do electric fields start with?
Electric fields start with charged particles, such as electrons or protons. These charged particles generate electric fields around them that can exert forces on other charged particles in the vicinity.
What happens if you You wrap a wire around a piece of iron. and slowly increase the strength of an electric current flowing through the wire?
As the electric current flowing through the wire increases, the iron core becomes magnetized. The increasing current creates a magnetic field around the wire, which induces the iron core to also become magnetized. This process creates an electromagnet, which can attract magnetic materials or exert a magnetic influence.
