To calculate the electric field surrounding a charged object, you can use the formula E k Q / r2, where E is the electric field strength, k is the electrostatic constant (8.99 x 109 N m2/C2), Q is the charge of the object, and r is the distance from the object. Simply plug in the values for Q and r to find the electric field strength at a specific point.
The area surrounding a charged object where the influence of its electric field can be felt is called the electric field. The electric field exists in the space around the charged object and affects other charged objects within its vicinity.
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.
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.
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 area surrounding a charged object where the influence of its electric field can be felt is called the electric field. The electric field exists in the space around the charged object and affects other charged objects within its vicinity.
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.
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.
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.
Magnetic field.
The region around a charged object where electric forces are exerted on other charged objects is called an electric field. Electric fields emanate outward from positive charges and inward towards negative charges. The strength of the electric field decreases with distance from the charged object.
The region around a charged object where the object and the electric force interacts with other charged objects is called the electric field. The electric field is a vector field that exerts a force on any other charged object placed within it, with the magnitude and direction of the force depending on the charge and position of the objects involved.
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.
yes the space around a electrically charged object is known as electric field......
The electric field around a charged object is most intense near the surface of the object where the charge is located. As you move away from the charged object, the electric field strength decreases.
No, the strength of an electric field increases as you get closer to a charged object. The electric field is strongest closest to the charged object and decreases as you move farther away.