Peanuts are AMAZING! Especially when they are boiled.
It doesn't. A positively charged body is deficient in electrons. In an uncharged object there are equal numbers of positively charged protons and negatively charged electrons. Removing electrons will leave more protons than electrons, so the object will be positively charged. Such an object is said to have a deficiency or electrons rather than a surplus of electrons because it is generally easier to remove electrons than it is to add protons. Electrons occupy the outer shells of an atom and have a much lower mass than protons. The protons, by contrast, are bound together in the dense nucleus.
No that is wrong. that compound has more protons than electrons.
The electromagnetic force between the electrons in the person's atoms and the electrons in the wall's atoms is greater than the force of a person pushing against it. The atoms in the wall are connected via their electrons with a certain amount of force; if the force applied to the wall exceeds this threshold, then the object acting on the wall will go through it.
In contrast to the attractive force between two objects with opposite charges, twoobjectsthat are of like charge will repel each other. That is, a positively chargedobject will exert a repulsive force upon a second positively charged object.
How does static electricity work?1. Static electricity is the result of an imbalance between negative and positive charges in an object. These charges can build up on the surface of an object until they find a way to be released or discharged. One way to discharge them is through a circuit. The rubbing of certain materials against one another can transfer negative charges, or electrons. For example, if you rub your shoe on the carpet, your body collects extra electrons. The electrons cling to your body until they can be released. As you reach and touch your pet (dog or cat) you get a shock. It is only the extra electrons being released from you to your unsuspecting pet.How does my hair stick up?2. As you remove your hat, electrons are transferred from hat to hair, creating that interesting hairdo! Remember, objects with the same charge repel each other. Because they have the same charge, your hair will stand on end. Your hairs are simply trying to get as far away from each other as possible! How does a balloon stick to the wall?3. When you rub a balloon against your clothes and it sticks to the wall, you are adding a extra of electrons (negative charges) to the surface of the balloon. The wall is now more positively charged than the balloon. As the two come in contact, the balloon will stick because of the rule that opposites attract (positive to negative).
An object that gains electrons during rubbing will become negatively charged, while an object that loses electrons will become positively charged. This is based on the principle that electrons are negatively charged particles.
Electrons are transferred when a neutral object is charged. If electrons are added to an object, it becomes negatively charged, and if electrons are removed, it becomes positively charged.
gaining or losing electrons. If an object gains electrons, it becomes negatively charged; if it loses electrons, it becomes positively charged.
When a negatively charged object touches a neutral object, electrons transfer from the negatively charged object to the neutral object, causing the neutral object to gain electrons. This results in the neutral object becoming negatively charged.
It becomes charged. (negatively)
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.
When a charged object is brought close to a neutral object, the electric field from the charged object can cause the electrons in the neutral object to be attracted or repelled. This movement of electrons results in the neutral object becoming polarized, as the electrons are pushed away from or pulled towards the charged object.
When an object is charged by conduction, it comes into direct contact with a charged object, causing electrons to transfer between the two objects. If the charged object is negatively charged, electrons will flow from the charged object to the uncharged object, resulting in the uncharged object becoming negatively charged as well.
When a charged object is brought near a neutral object, the charged object can induce the movement of electrons within the neutral object by exerting a force on them. This redistribution of electrons can result in the neutral object becoming temporarily charged in a process known as electrostatic induction.
When electrons are rearranged in an object by an electric field, the object is charged by gaining or losing electrons. If an object gains electrons, it becomes negatively charged, and if it loses electrons, it becomes positively charged.
When a positively charged object is grounded, electrons from the ground will flow into the object to neutralize the positive charge. This movement of electrons will cause the object to become neutral in charge.
If a neutrally charged object gains electrons, it becomes negatively charged. Electrons carry a negative charge, so adding more electrons to an object will result in an overall negative charge.