What is element?
An element is the simplest form of a pure substances,which cannot be split into two or more simpler substances by any chemical method.
In
chemistry and physics, an element is a substance that cannot be broken down
into simpler components by any non-nuclear chemical reaction. An element is
uniquely determined by the number of protons
in the nuclei of its atoms. The
number of protons in the nucleus of the atom of an element is known as the
atomic number of that element.
The number of electrons
in the atom of a specific element can vary. If the number of electrons is the
same as the number of protons, then the atom has no electric charge. However,
if the number of electrons is different from the number of protons, the atom is
called an ions. If there are more
electrons than protons, it is a negative ion; if there are fewer electrons than
protons, it is a positive ion.
The number of neutrons
in the atom of a specific element can also vary. The number of neutrons in the
nucleus of an element determines the isotope of the element. All elements have a
particular isotope that is most common in nature. For example, the most common
isotope of hydrogen has no neutrons, but isotopes exist with 1 neutron (called
deuterium) and 2 neutrons (called tritium). The most common naturally occurring
isotope of carbon has 6 neutrons in the nucleus, but another, less common
isotope has 8.
Some elements can be broken down into elements with smaller atomic
numbers by so-called atomic or nuclear reactions. This process is called atomic
fission or nuclear fission, and was responsible for the unprecedented
explosions of the first atom bombs (equivalent to thousands of tons of TNT). It
is also the process by which nuclear reactors generate power.
Sometimes elements combine to form other elements with larger
atomic numbers. This is called atomic fusion or nuclear fusion. The most common
nuclear fusion process involves the conversion of hydrogen to helium. It occurs
in the core of the Sun and other stars. Nuclear fusion produces more energy per
unit mass than fission, and is responsible for the horrific destructive power
of the hydrogen bomb (in some cases equivalent to more than 20 million tons of
TNT).
Currently, scientists know of 118 different elements. Some,
like gold, silver, copper and carbon, have been known for thousands of years. Others, such as meitnerium, darmstadtium and
ununquadium , have only recently been created by scientists. All
known elements are arranged on a chart called the Periodic Table of Elements.
In nature, elements are found with atomic numbers from 1 through
92. Hydrogen, the most abundant element in the universe, has atomic number 1.
Helium, the second most abundant element in the universe, has atomic number 2.
Other familiar elements include carbon with 6 protons in its nucleus, nitrogen
with 7, oxygen with 8, iron with 26, and uranium with 92. Elements with atomic
numbers greater than 92 have been made in laboratories, but most of them tend
to be unstable and decay rapidly into elements with lower atomic numbers.
Examples of Elements
Any of the types of atoms listed on the periodic table is an example of an element, including:
- copper
- · cesium· iron· neon· krypton· proton - technically a lone proton qualifies as an example of the element hydrogen
Examples of Substances That Are Not Elements
If more than one type of atom is present, a substance is not an element. Compounds and alloys are not elements. Similarly, groups of electrons and neutrons are not elements. A particle must contain protons to be an example of an element. Non-elements include:
- water (composed of hydrogen and oxygen atoms)
- steel
- electrons
- brass (composed of multiple types of metal atoms)
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