Electre static force deffrent datween the charger is. Called. Centrol. Force. And why
They attract each other when they have differed charges, or to involve in chemical bonding.
Electrostatic or magnetic charges ? the answers are different.If electrostatic charges, I GUESS that an antistatic-coated glass plate would not affect the charges at all.If it were left to accumulate charge, an insulating glass plate placed between the two charges would assume a potential between that of the two bodies. [Assuming it were free to accumulate a charge.]If magnetic charges, the glass plate would have no effect. [But the 'glass plate' equivalent would be a soft iron sheet, or a wire mesh screen of soft iron. ...Continue with your analysis of the analogy.
A chemical bond is an attractive force between atoms. It is caused by the electrostatic force of attraction between opposite charges, and forms either strong bonds or weak bonds.
In ionic solids, the positively charged cations are attracted to the negatively charged anions through electrostatic attraction. This attraction between opposite charges helps hold the ions together in a solid lattice structure, forming the basis of ionic bonding. The electrostatic attraction between cations and anions is very strong, giving rise to the high melting and boiling points typically observed in ionic compounds.
The attraction or repulsion that unlike or like charges have is due to the electrostatic force. Like charges (positive-positive or negative-negative) repel each other, while unlike charges (positive-negative) attract each other. This force is governed by Coulomb's law and is responsible for the interactions between charged particles.
The electrostatic force between two charges is called a central force because it acts along the line joining the two charges, targeting the center of the system formed by the charges. This means that the force is radial in nature, pointing towards or away from the central point between the charges.
Electrostatic force is inversely proportional to the square of the distance between two charges. This means that as the distance between the charges increases, the electrostatic force between them decreases. The relationship is described by Coulomb's law in physics.
If one charge is quadrupled, the electrostatic force between the charges will increase by a factor of 4. This is because the electrostatic force is directly proportional to the product of the two charges involved.
Coulomb.
The force between electric charges is called the electrostatic force. It can be either attractive or repulsive, depending on the charges involved.
The magnitude of the charges on the objects and the distance between them are the two main factors that affect the strength of electrostatic forces. Increasing the charges or decreasing the distance between the objects would have the greatest effect on strengthening the electrostatic forces between them.
The electrostatic force is the force between electrically charged objects. It can be attractive or repulsive depending on the types of charges involved (like charges repel, opposite charges attract). The strength of the force is determined by the amount of charge on the objects and the distance between them.
The electrostatic force between charged particles is the force of attraction or repulsion between two charged objects due to their electric charges. It follows Coulomb's law, which states that the force is directly proportional to the product of the charges and inversely proportional to the square of the distance between the charges.
An electric (or electrostatic) attraction.
The size of the electrostatic force of attraction between two objects is determined by the magnitude of the charges on the objects and the distance between the objects. The larger the charges and the smaller the distance between the objects, the stronger the electrostatic force of attraction will be.
Without the charges, you cannot calculate electrostatic forces, as the amount and distribution of charge is crucial in determining the strength and direction of the electrostatic force between two objects. The Coulomb's Law formula, which calculates the electrostatic force, requires the charges of the objects and the distance between them as parameters.
The formula for calculating the electrostatic force between two charges is given by Coulomb's Law, which states that the force (F) between two charges (q1 and q2) is equal to the product of the charges divided by the square of the distance (r) between them, multiplied by a constant (k). Mathematically, it can be expressed as F k (q1 q2) / r2.