Radar in the Modern World
Radar in the Modern World
Scott Martin
D. Hyland
English 192
Research Paper
Radar in the Modern World
Radar is usually taken for granted in these days of modern technology. Many people do not know how radar is really used, how it works, or why we need it. People are familiar with several uses of radar like police enforcement radar guns and radar that measures how fast a baseball is pitched in a major league game. These are only a few of the many uses radar has to offer. Radar can determine several properties of an object from a distance, such as its position, speed, direction of travel, and shape; it can also detect objects out of the range of sight in all weather conditions, making it a fundamental utility for many industries.
The term radar actually came from the acronym representing RAdio Detection And Ranging. Radar is a detection system used to locate and identify objects. Simply put, radar is the process in which radio waves are emitted from the source of the system; those waves ricochet off objects in their path, and the radar system detects the echoes of signals that return.
“One would think that so important a contribution to the world’s technology would be chronicled with great care at every step…This, unfortunately, is not the case, and for reasons quite understandable” (
Radar can be traced back as far as 1832 when British physicist Michael Faraday suggested the existence of an electromagnetic field between certain objects from his scientific observations. Working from these ideas, British physicist James Clerk Maxwell predicted mathematically the existence and behavior of radio waves in 1873. In 1886, physicist Heinrich Hertz from Germany and Elihu Thomson from America confirmed the existence of radio waves with demonstrations showing examples of reflection, refraction, and direction finding of radio waves. By 1904, Christian Hulsmeyer, a German inventor, applied for a patent for a device that used radio waves in a collision-avoidance device for ships. Hulsmeyer’s system was not very accurate and only signaled when two ships’ radio waves were in concurrent directions, which meant that they were headed directly for each other; however, it was only effective for a range of one mile. His detection device worked off the ship’s existing low-frequency radios which did not travel very far. In June of 1922, Italian radio expert, Guglielmo Marconi drew attention to the fact that he had observed the reflection of high-frequency waves by metallic objects many miles away (Page 183); soon after this discovery, many people from around the world began developing devices to use this discovery for navigation purposes .
The first true discovery of radar was in September of 1922 when Americans Albert H. Taylor and Leo C. Young observed the interruption of high frequency radio communication by ship passing between transmitter and receiver. They also observed “beats” produced by large objects when they moved within the transmission area (between the source and receiver). Taylor and Young named it the beat method for a reason. While working with a high frequency radio communication from opposing sides of a river in New York, the normal steady tone that they were working on suddenly grew twice in loudness then faded into nothing. A short time after, the tone grew back to twice its original loudness, and then back down to its original decibel level. In curiosity, the men looked out to see that a large steam boat had just passed through their line of radio signal causing the gap in radio contact. Since both men were employed by the U.S. Navy, they knew the difficulties the navy had with guarding a harbor in low visibility (
Radar was still in its infancy, but ideas were showing up everywhere. In 1930, Young and Lawrence A. Hyland were studying at the U.S. Naval Research Laboratory, experimenting with a short-wave transmitter and receiver over several miles. The receiver started to pick up unusual reception, and the tone fluctuated up and down. Looking for what was wrong, Hyland checked and rechecked all the possibilities. Finally, he discovered that at every instance the mysterious