Tag: Ions

Difference between atom and ion

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Introduction

An atom is the smallest component of any given element. Subatomic particles like as the proton, neutron, and electron can be further isolated from atoms, which were once thought to be invincible. Since the quantity of protons and electrons in every atom is the same, every atom is non-conducting.

When an atom loses or gains an electron, the resulting change in charge is noticeable. These charged particles are called ions. Either by gaining electrons (in which case they are called anions) or by losing them (in which case they are called cations), atoms and molecules acquire or lose their charge. The atomic theory’s central idea is that atoms are the smallest building blocks of matter. None of the simplest chemical compounds or elements are capable of decomposing any further.

Atom

A nucleus, which is positively charged, is packed closely with electrons, which are negatively charged, to form the smallest unit of an element called atom. The structure of an atom, on the one hand, and the additional nucleus region, on the other. The neutron (n°) and the proton (P+) make up the atomic structure. Negatively charged electrons are housed in the supplementary nucleus (e-).

All elements and compounds, including atoms, have mass. The protons in an atom’s nucleus are largely responsible for the extreme density of matter there. The proton is the most massive subatomic particle, followed by the neutron and then the electron.

An electron orbits the nucleus of a hydrogen atom, which contains a single proton. Hydrogen is the most lightweight element.

The nucleus of each atom has a specific amount of protons, and these protons attract a matching number of electrons, rendering the atom electrically neutral. Ions can be created by either adding or removing electrons from atoms. A few examples of these elements are hydrogen, nitrogen, oxygen, and iron.

Structure of the atom with its elements

Features of atom on the bases of modern atomic theory 

  1. The term “modern atomic theory” is used to describe the most up-to-date, canonical explanation of atoms.
  2. According to the foundations of atomic theory, atoms are the smallest units of chemical matter. They are the most basic building blocks of chemistry; they cannot be broken down any more.
  3. Each element has its own distinct atomic structure, which differs from that of every other element.
  4. Although, atoms can break down into much smaller particles. The nucleus of every element contains the same amount of protons, which are positively charged subatomic particles.
  5. Neutrons are also present in the nucleus, albeit the exact number varies amongst isotopes of the same atomic type.
  6. There are two types of atoms in the universe: isotopes, which have a varied number of neutrons but the same number of protons. For example, whereas all hydrogen atoms share a single proton, hydrogen-2 also has a neutron while hydrogen-1 does not.
Isotopes of Hydrogen. Hydrogen has three naturally occurring isotopes, sometimes denoted protium, deuterium, and tritium.

Ions 

When the number of protons and electrons in an atom becomes unbalanced, ions form. Common charged particles include ions. An ion could have either a positive or a negative charge. If an atom has an electrical charge, it is said to be an ion. An anion is an atom in which the number of electrons is greater than the number of protons. When there are more protons than electrons in an atom, we call it a cation. It’s doable without any outside help. In the process of gaining or losing electrons, an atom becomes an ion. Ions can be divided into two categories: anions (-) and cations (+).

When an atom receives an electron, its electron count rises; as a result, it acquires a negative charge. When an atom loses an electron, it receives more protons than it loses, giving the atom a positive charge.

Difference between Atom and Ion

Summary

The contemporary atomic theory suggests that there are two components to an atom. The nucleus and the atomic orbitals. Electrostatic repulsion does not exist between protons and neutrons, hence the nucleus is composed of both types of particles. All stuff is composed of smaller and smaller particles called atoms. Subatomic particles can change into ions by gaining or losing an electron. Ions are sometimes mistaken for atoms, but not always; some compounds can undergo an electron-loss or -gain transformation to become ions. Ions have a net electrical charge, while atoms do not; this is the main contrast between the two.

Frequently Asked Questions

1. What is the function of the nucleus in an atom?

Ans. The nucleus of an atom contains the vast majority of the atom’s mass in the form of protons and neutrons. These two hold down the nucleus. The electrons orbit the nucleus.

2. Does the property on an ion differ from its parent atom?

Ans. Ions have different electronic configuration than their parent atoms. It results in different chemical properties because of the presence of charge. It also differs in terms of size. 

3. Who discovered atom?

Ans. Democritus invented the atom in 450 B.C. He separated a matter into smaller and smaller fragments until it could no longer be divided. He called them atomos, afterwards renamed atoms. John Dalton revives Democritus’ hypothesis and performs several experiments to establish atoms exist.

How do Metals and Non Metals React

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Metals and Non-Metals

Introduction

The crust of the Earth is packed with a variety of abundant and inexhaustible minerals, as we have studied in our geographical class. These minerals are a blend of natural elements that are extracted and used for various things. Each element and mineral has unique qualities of its own that make it useful.

Metals

Metals are among the sorts of elements that make up the crust of the Earth. They are a combination of substances that are frequently hard, malleable, ductile, glossy, etc. Metals are also effective electrical conductors. They can be found in a free state (without any combination) or a mixed state in the Earth’s core (with a mixture of oxygen, rock, and dust). 

Non-Metals

Non-metal elements are those that do not exhibit non-metallic properties. They are not malleable like metals and have different physical characteristics from metals. They are brittle and ductile as well. When compared to metals, they have a low density. Non-metals can be solid, liquid, and gas, and they are mostly bad conductors of electricity. Non-metals include things like oxygen, phosphorus, and sulphur.

How Do Metals and Non Metals React with Each Other?

  1. Metals react with non-metals by transferring electrons from metal atoms to non-metal atoms, resulting in the formation of ions.
  2. This process produces an ionic compound.
  3. Metal atoms transfer electrons to non-metal atoms.
  4. Metal atoms become positive ions, while non-metal atoms become negative ions.
  5. Example Sodium Chloride (NaCl)

What Reactions Occur Between Metals?

Metals interact with one another by their degree of reactivity, or strength. The less reactive metal is displaced when a metal reacts more vigorously than the metal with which it is bonding. It could be solid, liquid, or molten.

In other words, metal A is more reactive than metal B if it displaces metal B. Galvanic corrosion results from the collision of two metals. Two distinct metals connected by an electrolyte are required for galvanic corrosion to occur. If this occurs, the corrosion process will be initiated by the electrolyte. More reactive metals corrode more frequently.

Salt solution of A + Metal B > Salt solution of A + Metal

\[Zn\left( s \right){\rm{ }} + {\rm{ }}CuS{O_4}\left( {aq} \right) \to {\rm{ }}ZnS{O_4}\left( {aq} \right){\rm{ }} + {\rm{ }}Cu\left( s \right)\]

Summary

The concept of metals, non-metals, and their properties are all included in this article. The characteristic of metals and non-metals differ, and each has a unique state of reactivity. Each element and mineral has distinct properties of its own that make it useful.  A variety of organic elements are combined to form these minerals, which are then extracted and used for various purposes.

Frequently Asked Questions

1. What Characteristics do Non-Metals Generally have?

Ans. The characteristics of non-metals are as follows.

  • A metal’s qualities depend on its size.
  • They often have bad electrical conductivity. The main characteristic that sets them apart from metals is this one.
  • Due to their greater electronegativity, non-metals have a higher potential of attracting more electrons.
  • They retain their electrons and borrow from the metals due to their higher electronegativity.
  • The states of non-metals include solid, liquid, and gas. They are brittle by nature in the solid state, giving rise to ductile and non-malleable states.

2. What Significant Function do Non-Metals Play in Our Lives?

Ans. Non-metals such as nitrogen and phosphorus are used in fertilizers to increase plant yield. Phosphorus is used to make matchsticks and fireworks. Chlorine, a non-metal, is used in the water purification process. Carbon, a non-metal, is used in the majority of fuels.

3. What Happens to Metals During Recycling?

Ans. The majority will be smelted into ingots, so they can be melted and processed at metal facilities across the nation. The recycling facilities’ rubbish to the grocery store shelves can be accessible within as little as six weeks.