Sper Scientific 840026 Radiation Detection Meter User Manual

8

Atoms are composed of three basic particles: protons, neu-

trons and electrons. Electrons are extremely light, nega-

tively charged particles that exist as a cloud around the

center, or nucleus, of the atom. Sometimes the electrons

are said to occupy orbits around the nucleus. These elec-

trons are attracted to the nucleus because of the positively

charged protons that, along with the neutrons, make up the

nucleus. Atoms bond together in molecules when one atom

gives up or shares an electron with another atom. Chemical

reactions utilize this bonding process.

In all atoms, the number of electrons (and therefore the

number of negative charges) equals the number of protons

(positive charges). The number of protons or electrons in

an atom determines the chemical nature of the atom, and

each element has its own unique number (example: hydro-

gen = 1, helium - 2 etc.). The number of neutrons, how-

ever, may not always be the same in every atom of a par-

ticular element. Atoms of an element with different numbers

of neutrons are called isotopes. Every atom of a particular

element has the same atomic number, but different iso-

topes of a given element have different atomic weights.

It is the variable number of neutrons in the nucleus of an

atom that leads to a process called nuclear decay that

causes radiation. When an atom has too many or too few

neutrons in its nucleus, it will have a tendency to rearrange

itself spontaneously into a new combination of particles that

are more stable. In this decay process, bundles of excess

energy are shot out of the nucleus in one of a number of

ways.

When the neutrons are excessive, a neutron can

convert itself to a proton and shoot out an electron

at very high speed, known as beta radiation.

A proton may be converted to a neutron to cause

an unusual particle called a positron to be ejected

from the nucleus.

In still another process, the nucleus, in a vain

atempt to stabilize itself, kicks out two protons and

two neutrons all together as one particle, called an

alpha particle.