its radius increases due to repulsion of same charges...
Depends on the charge (and conductivity) of the "other" object.
An object can obtain a negative charge by gaining excess electrons. When an object gains more electrons than protons, it becomes negatively charged. This can happen through processes such as friction, induction, or contact with another negatively charged object.
A buildup of electric charge occurs when there is an excess of electrons (negatively charged particles) on an object. This can happen when electrons are transferred from one object to another through friction or contact, resulting in a net negative or positive charge on the object.
If the number of protons and electrons in an object are not equal, it will have a net charge and become an ion. If there are more protons than electrons, the object will have a positive charge; if there are more electrons, it will have a negative charge. This imbalance in charge can lead to interactions with other charged objects.
An object gets a neutral charge when it gains or loses an equal number of protons and electrons, balancing out the positive and negative charges. This can happen through processes like friction, conduction, or induction, where electrons are transferred between objects.
It gains electrons. The only charged particles which can freely move from one object to another are electrons. Electrons have negative charge. So adding electrons gives a negative charge, and removing electrons gives the object a positive charge.
Objects gain a negative charge by gaining extra electrons. Electrons are negatively charged particles, so when an object gains more electrons than protons, it becomes negatively charged. This can happen through processes like friction or induction.
It gains one or more electrons.
If an atom gains extra electrons, it becomes negatively charged, forming an anion. This increase in negative charge occurs because electrons carry a negative charge, and adding them to the atom increases its overall negative charge relative to the positively charged protons in the nucleus. The atom's chemical properties may also change due to this alteration in charge, potentially affecting its reactivity and interactions with other atoms.
Depends on the charge (and conductivity) of the "other" object.
An object can obtain a negative charge by gaining excess electrons. When an object gains more electrons than protons, it becomes negatively charged. This can happen through processes such as friction, induction, or contact with another negatively charged object.
A buildup of electric charge occurs when there is an excess of electrons (negatively charged particles) on an object. This can happen when electrons are transferred from one object to another through friction or contact, resulting in a net negative or positive charge on the object.
If the number of protons and electrons in an object are not equal, it will have a net charge and become an ion. If there are more protons than electrons, the object will have a positive charge; if there are more electrons, it will have a negative charge. This imbalance in charge can lead to interactions with other charged objects.
An object gets a neutral charge when it gains or loses an equal number of protons and electrons, balancing out the positive and negative charges. This can happen through processes like friction, conduction, or induction, where electrons are transferred between objects.
Rubbing a glass rod with fur transfers electrons from the fur to the glass rod, giving the glass rod a negative charge. This charge separation creates an attractive force between the glass rod (negative charge) and the fur (positive charge), causing them to be attracted to each other.
An object becomes positively charged if it loses electrons. This is because electrons have a negative charge, so the less of them there are in an object, the stronger the positive charge is.
An object becomes positively charged if it loses electrons. This is because electrons have a negative charge, so the less of them there are in an object, the stronger the positive charge is.