There is no attraction between two like-charged things. Instead, repulsion between the things take place.
Electrostatic attraction is powerful because it involves the attraction between opposite charges, which do not cancel out like in the case of neutral objects. This results in a strong force of attraction between the charged particles, making it a significant force in interactions between particles and materials. Additionally, electrostatic attraction operates over long distances, allowing it to act between objects that are not in direct contact.
attraction forces between the electrons of one atom and the nucleus of the other atom are balanced by the repulsive force caused by the two + charged nuclei as they are forced together~attractive forces have a little attraction for the atoms.
The electromagnetic force is a fundamental force of nature that affects electrically charged particles. It is responsible for the interaction between charged particles, such as the attraction between opposite charges and the repulsion between like charges. It is carried by particles called photons.
The two types of electric force that can occur between two charged objects are attraction and repulsion. Attraction occurs when opposite charges (positive and negative) interact and pull towards each other, while repulsion occurs when like charges (positive and positive, or negative and negative) interact and push away from each other.
Some examples of electrostatic forces at work include the attraction between positively and negatively charged particles, such as in the case of a charged balloon sticking to a wall. Another example is the repulsion between two like-charged particles, like in the case of two negatively charged balloons pushing each other away. Additionally, the build-up of static electricity when rubbing a balloon on hair is another example of electrostatic forces in action.
No, there was no attraction between the comb and kerosene. Attraction refers to the force that pulls objects together due to their different electric charges, which does not apply to the interaction between a non-charged comb and a liquid like kerosene.
Electrostatic attraction is powerful because it involves the attraction between opposite charges, which do not cancel out like in the case of neutral objects. This results in a strong force of attraction between the charged particles, making it a significant force in interactions between particles and materials. Additionally, electrostatic attraction operates over long distances, allowing it to act between objects that are not in direct contact.
Attraction between ions creates an ionic bond. This bond is formed when one atom transfers electrons to another atom, resulting in the formation of a positively charged cation and a negatively charged anion that are held together by electrostatic forces.
Ionic bonds are the attraction between positively and negatively charged ions. In this type of bond, one atom loses electrons (becoming a positively charged ion) and another atom gains those electrons (becoming a negatively charged ion), creating a strong electrostatic attraction between them.
attraction forces between the electrons of one atom and the nucleus of the other atom are balanced by the repulsive force caused by the two + charged nuclei as they are forced together~attractive forces have a little attraction for the atoms.
The electromagnetic force is a fundamental force of nature that affects electrically charged particles. It is responsible for the interaction between charged particles, such as the attraction between opposite charges and the repulsion between like charges. It is carried by particles called photons.
Positively charged ions move to the negative electrode in a process known as electrochemical migration due to the attraction between opposite charges. The negative electrode has an excess of electrons, which attract the positively charged ions towards it. This movement is a key mechanism in processes like electrolysis and battery operation.
.... between one or more postive (metal) ions and one or more negative ions like chloride, sulfate, nitrate, carbonate etc. Example: 2Al3+ + 3SO42- --> Al2(SO4)3
it means when you have it you actually like it
Van der Wals Forces, for one. Hydrogen Bonding for another [same thing]. In the chemical Atomic Bonding of Atoms electrons are negatively charged while protons are positively charged - that sounds like Electricity to me.
friend - the attraction between man to man is so small and many other attraction forces are also acting like gravitation force , moon force , attraction between other persons (when we are between many persons we are not felling confortable attraction between each other but it is balanced**try to undestand**) attraction between other objects . in this way if less things around it fact very small thanks u for ur question
I would expect the ions in a sample of magnesium fluoride to have a strong attraction for each other because magnesium ions are typically doubly charged cations, and fluoride ions are typically singly charged anions. The strong electrostatic attraction between ions of opposite charge results in the formation of a stable ionic compound like magnesium fluoride.