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Why do atom have no electric charge even though most of their particles have charges?
Non ionic atoms have no electric charge, even though most of their particles have charge, because the positive particles (protons) balance the negative particles (electrons).
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Why do atoms have no electric charge even though most Of their particle have charges?
The negative particles (electrons) are balanced by the positive particles (protons).
Why do atom have no electric charge even though most of their particles have charge?
Non ionic atoms have no electric charge, even though most of their particles have charge, because the positive particles (protons) balance the negative particles (electrons).
Why do atoms have no electric charge even though most of the particles inside the atoms have charges?
Because the positive charge of the protons in the nucleus is exactly canceled by the negative charge of the electrons in the orbitals around it.
Explain why atoms have no electric charge even though they are made up of charged particles.?
The electrons of an atom have negative charges that are balanced by the positive charges of the protons. With the negative and positive charges canceling each other, the atom's overall charge is neutralized.Because they are neutral. Ions do have + or - charges
Which of these most affects the strength of an electric field?
The most significant factors that affect the strength of an electric field are the magnitude of the charges creating the field and the distance between the charges. The greater the magnitude of the charges or the closer the charges are, the stronger the electric field will be.
Why do atoms have no electric charge even though most of the praticels have charges?
The individual charges - usually called "negative" and "positive" - cancel one another out. You can use the rules for adding numbers with these charges. For example, the charge of one electron (-1) and the charge of one proton (+1) cancel out, since (-1) + (+1) = 0.
Why do atoms have no electric charge even though most of their particles have a charge?
Protons are positive and the electrons are negative. Neutrons are neutral. Now we have the basis of the atomic particle charges. The atomic number is equal to the number of protons which is equal to the number of electrons. So if there are five positive particles and five negative ones, they balance each other out. With the acceptation of ions but that would take too long for me to type!
What is true electric currents?
True electric currents refer to the movement of electric charge carriers through a conductor, such as electrons in a wire. It is this flow of charge that powers electrical devices and circuits. The direction of the current is defined as the flow of positive charge, even though in reality it is often negative charges (electrons) that are moving.
What does conservation of charge mean?
Conservation of charge is a fundamental principle in physics that states electric charge is neither created nor destroyed in an isolated system. This means the total electric charge in a system remains constant over time, even though it can be transferred from one object to another.
Is matter usually charge-neutral?
Yes, matter is typically charge-neutral because it contains equal numbers of positively and negatively charged particles (protons and electrons, respectively). This balance of charges allows matter to maintain a neutral overall charge.
What type of charge if any does each atomic particle have?
The Proton has a Positive charge and is located in the nucleus.The Neutron is Neutral (no charge) and is also in the nucleus.ANDThe Electron has a Negative charge and, they orbit around the nucleus.
What is the flow of electricity charge?
it is the rate at which electric charges pass though a conductor. The charged particle can be either positive or negative. In order for a charge to flow, it needs a push (a force) and it is supplied by voltage, or potential difference. The charge flows from high potential energy to low potential energy.
