If you have two electrically neutral objects, and a charge (e.g., an electron) passes from one to the other, then both will be charged. If an electron (with a charge of minus 1 elementary units) passes from object "A" to object "B", and both were neutral initially, then object "A" will have a charge of +1, and charge B, a charge of -1. If this is confusing for you, here is a numerical example.
Object A has 10 protons and 10 electrons. The total charge is 10 - 10 = 0.
Object B also has 10 protons and 10 electrons, for a total charge of 0.
After the electron goes from object A to object B:
Object A has 10 protons and 11 electrons. The total charge is 10 - 11 = -1.
Object B has 10 protons and 9 electrons. The total charge is 10 - 9 = +1.
If you have two electrically neutral objects, and a charge (e.g., an electron) passes from one to the other, then both will be charged. If an electron (with a charge of minus 1 elementary units) passes from object "A" to object "B", and both were neutral initially, then object "A" will have a charge of +1, and charge B, a charge of -1. If this is confusing for you, here is a numerical example.
Object A has 10 protons and 10 electrons. The total charge is 10 - 10 = 0.
Object B also has 10 protons and 10 electrons, for a total charge of 0.
After the electron goes from object A to object B:
Object A has 10 protons and 11 electrons. The total charge is 10 - 11 = -1.
Object B has 10 protons and 9 electrons. The total charge is 10 - 9 = +1.
If you have two electrically neutral objects, and a charge (e.g., an electron) passes from one to the other, then both will be charged. If an electron (with a charge of minus 1 elementary units) passes from object "A" to object "B", and both were neutral initially, then object "A" will have a charge of +1, and charge B, a charge of -1. If this is confusing for you, here is a numerical example.
Object A has 10 protons and 10 electrons. The total charge is 10 - 10 = 0.
Object B also has 10 protons and 10 electrons, for a total charge of 0.
After the electron goes from object A to object B:
Object A has 10 protons and 11 electrons. The total charge is 10 - 11 = -1.
Object B has 10 protons and 9 electrons. The total charge is 10 - 9 = +1.
If you have two electrically neutral objects, and a charge (e.g., an electron) passes from one to the other, then both will be charged. If an electron (with a charge of minus 1 elementary units) passes from object "A" to object "B", and both were neutral initially, then object "A" will have a charge of +1, and charge B, a charge of -1. If this is confusing for you, here is a numerical example.
Object A has 10 protons and 10 electrons. The total charge is 10 - 10 = 0.
Object B also has 10 protons and 10 electrons, for a total charge of 0.
After the electron goes from object A to object B:
Object A has 10 protons and 11 electrons. The total charge is 10 - 11 = -1.
Object B has 10 protons and 9 electrons. The total charge is 10 - 9 = +1.
If you have two electrically neutral objects, and a charge (e.g., an electron) passes from one to the other, then both will be charged. If an electron (with a charge of minus 1 elementary units) passes from object "A" to object "B", and both were neutral initially, then object "A" will have a charge of +1, and charge B, a charge of -1. If this is confusing for you, here is a numerical example.
Object A has 10 protons and 10 electrons. The total charge is 10 - 10 = 0.
Object B also has 10 protons and 10 electrons, for a total charge of 0.
After the electron goes from object A to object B:
Object A has 10 protons and 11 electrons. The total charge is 10 - 11 = -1.
Object B has 10 protons and 9 electrons. The total charge is 10 - 9 = +1.
Any charged object weather positively charged or negatively charged will have an attractive interaction with a neutral object. Neutral objects do not attract or repel each other.
Any interaction occur.
Negatively charged objects
Positively charged objects have more protons than electrons. Negatively charged objects have more electrons than protons.
Charged objects don't have an effect on neutral objects, and repel objects with like charges.
The charged object may induce a separation of charges in the neutral object.The charged object may induce a separation of charges in the neutral object.The charged object may induce a separation of charges in the neutral object.The charged object may induce a separation of charges in the neutral object.
objects can be negatively charged when it is rubbed with another object; a woolen cloth for example. this is because the electrons from the woolen cloth will be transferred to the object which is being rubbed! only electrons can be transferred to the object and make the object becomes negatively charged.
They repel, same with two negatively charged objects
It will be attracted to any negatively charged objects and repelled by any positively charged objects. It will probably be mildly attracted by neutral objects but this would be a much smaller effect.
They do not react to charged particles.
anions (negatively charged objects) repel cations (positively charged objects)
There will be an attractive interaction between the charged object and the neutral object.