Question

Give the symbol for (a) a neutron, (b) an alpha particle, (c) gamma radiation.

Short answer

The symbols for the given particles are: (a) neutron: \(n^0\), (b) alpha particle: \(\alpha\) or \(^4_2He\), and (c) gamma radiation: \(\gamma\).

Step-by-step solution

Neutron Symbol

A neutron is a subatomic particle with no electric charge, found in the nucleus of atoms. Its symbol is denoted by \(n^0\).

Alpha Particle Symbol

An alpha particle consists of two protons and two neutrons bound together. It is also called a helium nucleus, as its composition is identical to that of a helium atom but without electrons. Its symbol is denoted by \(\alpha\) or \(^4_2He\).

Gamma Radiation Symbol

Gamma radiation is a form of electromagnetic radiation emitted by the decay of atomic nuclei. It is a high-energy and high-frequency wave. Its symbol is denoted by the Greek letter gamma, written as \(\gamma\).

Key concepts

Neutron Symbol

A neutron is one of the fundamental components of an atom, residing within the nucleus alongside protons. Unique in its nature, the neutron carries no electric charge, which is why it is often referred to as a neutral particle. This neutrality plays a crucial role in the stability and properties of an atomic nucleus.
To represent a neutron in nuclear chemistry, we use the symbol \(n^0\). Here, the number 0 denotes the absence of electrical charge. Neutrons are significant in numerous nuclear processes, including nuclear fission, where they act as the initiators of chain reactions. Understanding the properties and the role of neutrons helps explain many nuclear phenomena, making them fundamental in the study of nuclear chemistry.

Alpha Particle

Alpha particles are intriguing components in nuclear chemistry. They consist of two protons and two neutrons, making them identical to the nucleus of a helium atom. However, they lack electrons and are often released during radioactive decay, specifically in a type known as alpha decay.
The symbol for an alpha particle can be written in two ways:

• As the Greek letter \(\alpha\)
• Or the symbol \(^4_2He\), indicating they comprise four nucleons in total (two protons and two neutrons) with a charge of +2 due to the presence of two protons

In nuclear chemistry, alpha particles can have significant impacts. For example, when an unstable atomic nucleus emits an alpha particle, it transforms into a new element with a reduced atomic mass. Importantly, alpha particles have relatively low penetration power, meaning they can be stopped by a sheet of paper, yet they possess high ionizing power, making them quite effective in transferring energy to materials.

Gamma Radiation

Gamma radiation is one of the key forms of electromagnetic radiation within nuclear chemistry. Unlike particles such as neutrons or alpha particles, gamma rays are waves of energy. They are emitted by atomic nuclei during radioactive decay processes.
Gamma radiation is characterized by its high energy and high frequency. It carries no mass or charge but is capable of penetrating materials deeply, which distinguishes it from alpha particles. The symbol for gamma radiation is the Greek letter \(\gamma\).
Due to their penetrating power, gamma rays are often used in medical applications for treatments, such as radiation therapy for cancer. However, this same quality makes shielding against gamma radiation important, requiring dense materials like lead or thick concrete to reduce exposure. Despite the challenges in handling gamma radiation, its properties make it incredibly valuable in scientific research and practical applications.