Which argument best explains the charge of an atomic nucleus
In this article, we discuss Which argument best explains the charge of an atomic nucleus. When we look at an atom through a microscope, it looks like a tiny, minuscule planet with rings around it. This is no coincidence, as that’s precisely what it is. The atom’s nucleus consists of positively charged protons surrounded by neutrally charged electrons. This creates an overall neutral charge for the atom, but it isn’t that simple to explain how these charges are distributed within the atom and why they are present in the first place. Here are three theories on how this works – anyone could be true!
WHAT IS THE CHARGE OF AN ATOMIC NUCLEUS?
An atomic nucleus is composed of neutrons and protons. Neutrons have no net electric charge, but protons have a positive electric charge. Therefore, the number of protons in a nuclear atom’s nucleus determines its type. For example, suppose a proton has been converted to a neutron, and no additional proton is added to the atom. In that case, it will become an electrically neutral atom because there are as many negative charges (electrons) as positive charges (protons).
A neutron can be converted into a proton by adding energy to it, which causes its mass to increase. This conversion happens when atoms undergo radioactive decay or collide with other particles, like protons.
WHICH ARGUMENT BEST EXPLAINS THE CHARGE OF AN … – MCQ POINT
When considering the charge on a nucleus, an essential factor is what type of particle it is. For example, if it is a proton, its charge will be positive (+1), and if it is a neutron, its charge will be neutral 0. You are looking for the total number of protons in the nucleus. For instance, if there are six protons in the nucleus, their sum would be 6+. This would give you a total proton charge of 7+ for this particular type of atom. This means seven electrons must also be present to compensate for its -1 negativizes.
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The proton is a subatomic particle that carries a positive electrical charge. Protons are always found near other protons and electrons in atoms. The nuclei have a positive electrical charge because they contain more protons than electrons.
The number of protons in an atom determines what type that atom is, so an element has its unique number for its number of protons. For example, hydrogen has one proton, helium has two protons, lithium has three protons, and so on. This means that each proton carries a single unit of positive electric charge which makes up for all their combined charges.
What determines the charge of an atomic nucleus? What determines the charge of an atomic nucleus?
The charges of nuclei are determined by the number and types of protons, neutrons, and electrons they contain. The proton is positively charged, while the neutron is neutral. The electron has a negative charge. For every proton in a nucleus, there must be one neutron. So if there are more protons than neutrons, it will have a positive electric charge; if there are more neutrons than protons, it will have a negative electric charge. For example, a hydrogen atom has one proton and one electron: 1+1=2. An oxygen atom has eight protons, eight neutrons, and six electrons: 8+8+6=20.
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