Cosmic Radiation During Flights
RadTown USA Topics
Natural Radiation:RadTown USA Topics
Personal Exposure:- Airport Security Scanning
- Cosmic Radiation During Flights
- CT Scans
- Dental X-ray
- Diagnostic Nuclear Medicine
- Electric and Magnetic Fields (EMF) Radiation from Power Lines
- Internal Radiotherapy: Brachytherapy
- Lasers
- Mammography
- Medical X-Rays
- Microwave Ovens
- Radioactive Materials in Antiques
- Radiation in Tobacco
- Radiation Therapy - External Beam
- Radon in Homes and Buildings
- Sun Exposure
- Television and Computer Screens
- UV Tanning Equipment
- Wireless Technology
- more topics...
This page describes cosmic radiation and the reason our cosmic exposure increases when we fly in planes.
On this page:
Overview
Earth and its inhabitants are constantly showered by radiation from space, like a steady drizzle of rain. This shower of cosmic radiation is created by charged, “sub-atomic particles” (parts of atoms) that originate in our galaxy, other galaxies, and the sun. The particles interact with Earth’s atmosphere and magnetic field to create cosmic radiation.
The charged particles exhibit a wide range of energies and the rate at which cosmic rays bombard Earth depends on whether they are low- or high-energy. The vast majority of cosmic rays are low-energy. Although, high-energy cosmic particles constantly pass through and sometimes interact with our body, they are very rare and very difficult to detect.
About eight percent of our annual radiation exposure comes from outer space. The atmosphere shields us from cosmic radiation, and the more air that is between us and outer space, the more shielding we have. The closer we get to outer space, the more we are exposed to cosmic radiation. This holds true when we live at high altitudes or fly.
Our exposure to cosmic radiation partially depends on the elevation of where we live. For example, people who live in Denver, Colorado, which is more than 5,000 feet above sea level, are exposed to more cosmic radiation than people living in Chicago, Illinois, which is only about 700 feet above sea level. For the same reasons described above, we are exposed to higher levels of cosmic radiation when we fly on a commercial airplane.
The amount of cosmic radiation you are exposed to while flying depends on your altitude and latitude (distance from the Earth’s equator) and solar activity. For a typical cross-country flight in a commercial airplane, you are likely to receive 2 to 5 millirem (mrem) of radiation, less than half the radiation dose you receive from a chest x-ray. People in the United States receive an average of 360 mrem of radiation per year from natural and man-made radiation sources, which includes cosmic radiation exposure during commercial flights.
Who is protecting you
Federal Aviation Administration (FAA)
Solar events, like sun spots, can produce elevated radiation levels at high altitudes and/or latitudes. To prevent increased exposure to cosmic radiation, routine forecasts and alerts are sent through the FAA so that a flight traveling during a solar event can alter its flight plan by reducing altitude. The FAA has developed a computer software program for public use, entitled CARI-6, which provides an estimated equivalent radiation dose for flights.What you can do to protect yourself
There are no practical ways to shield yourself from cosmic radiation during a flight. You can reduce your exposure while flying by taking shorter flights at lower altitudes. This is often not practical, and the risks from cosmic radiation do not warrant changing your travel plans to reduce your exposure.
Resources
Radiation:
Risks and Realities Natural Radiation 17 March 2006 - U.S. Environmental Protection Agency This page provides information on naturally-occurring radiation, including indoor radon and radiation from outer space and Earth's crust. |
Sources of Ionizing
Radiation. Understanding Radiation
25 March 2002 - National Safety Council This page discusses a range of issues about radiation and health. |
Radiation
and Air Carrier Crew Members
2001- Association of Flight Attendants This excerpt from a United Airlines booklet provides information about airline flights and radiation exposure focusing on occupational exposure of airline crews. |
Radiation
Measurement 14 September 2005 - U.S. Department of Health and Human Services, Centers for Disease Control and Prevention This page provides information on how radiation is measured and typical dose levels of radiation. |
Radiobiology
Research Team; CARI-6. 6 July 2005 - U.S. Federal Aviation Administration This page provides information on a computer program that calculates the dose of cosmic radiation received by an individual flying a great circle route between any two airports in the world. |
What
Are Sources of Radiation? 10 May 2005 - U.S. Nuclear Regulatory Commission This page explains various natural and man-made sources of radiation. |