Positively charged particles in a storm cloud float near the top, while negatively charged particles stay near the bottom. If the negatively charged particles clump up too much, they 'jump' somewhere else, to help spread out again. This results in lightning from the attracted particles.
Lightning forms when positive and negative charges build up in a cloud. The negative charges at the bottom of the cloud attract positive charges on the ground, creating a path for lightning to strike from the ground up.
Lightning forms when positive and negative charges in a cloud separate and create an electric field. When the electric field becomes strong enough, it causes a sudden discharge of electricity in the form of lightning. Lightning strikes the ground when the negative charges in the cloud are attracted to the positive charges on the ground, creating a path for the lightning bolt to travel.
Lightning occurs during thunderstorms because of the buildup of electrical charges in the atmosphere. When these charges become strong enough, they are released as a bolt of lightning, which heats the air and creates the sound we hear as thunder.
When clouds become charged due to the separation of positive and negative charges, lightning can occur when the electrical imbalance is released as a bolt of electricity. This discharge can happen within a cloud, between clouds, or from a cloud to the ground.
Correct! This charge separation creates an electric field that eventually leads to a discharge of electricity in the form of lightning, as the negative charges from the cloud and positive charges from the ground balance out.
The polarization of the charges both positive and negative that occurs in a storm cloud results in the strike of lightning. Two mechanisms trigger the polarization process. One is the frictional charging and the other is the freezing process.
that opposite electric charges attract that opposite electric charges attract
Attracting each other.
Positive charges attract negative charges and repel other positive charges. Negative charges do the opposite, attracting positive charges and repelling other negative charges. Like charges repel and opposite charges attract.
Yes, opposite charges are always attractive. This is because they have a tendency to move towards each other, following the principle of electrostatic attraction where opposite charges attract each other.
Lightning
Yes, things with opposite electrical charges attract each other. This is due to the fundamental principle of electrostatics where opposite charges are attracted to each other and like charges repel each other.
Electrostatic force, also known as electrostatic interaction, binds atoms and molecules by attracting unlike charges (opposite charges) and repulsing like charges (similar charges). This force is a fundamental component of interactions such as ionic bonding and van der Waals forces.
Yes. Although the development of these charges is still mostly understood, the buildup of opposite charges in the clouds can create a discharge (lightning) between the cloud and the ground, or the cloud and another cloud. Sometimes the distribution of charges can be seen in a dendritic (forked) pattern of lightning bolts. (see related link)
The law of charge states that like charges repel each other, while opposite charges attract each other. This principle governs how electrical charges interact and is a fundamental concept in electromagnetism.
Lightning is like static electricity, except on a much bigger scale. Both lightning and static electricity happen because of the attraction between the opposite charges. protons, and electrons
Opposite charges, such as positive and negative charges, attract each other through the electromagnetic force. This attraction is the fundamental principle behind how oppositely charged particles interact in nature. The force of attraction increases as the distance between the charges decreases.