RADAR

1. RADAR RADAR By Tony Kim and Ross Chu Block D Physics

2. Background on RADAR • RADAR which stands for RAdio Detection And Ranging was developed by Britain in the late 1930’s, during WW2 • Before the war, Radars were used to detect objects through the usage of radio waves • Now, they use RADAR to determine the location of moving or standing objects such as planes, ships, etc.

3. How does a RADAR work? • A RADAR basically first sends out radio waves in order to discover the location of the desired object • Once the collective group of radio waves has found its object, it will scatter and reflect off it • These signals are then picked up by the receiver which translates the electrical waves into a monitor

4. (Continued) • The Doppler Effect, learned in Chapter 16, is displayed through these radars • The frequency of these radio waves changes as the location relative to the antenna and the object changes

6. Benefits of Radar • Uses for military: locating airplanes, ships, missiles, etc.; targets buildings and other objects; • Uses for astronomy: locating and viewing objects in space • Uses for ocean: locating ships and animals • Uses for air: airlines utilize radars to ensure the safety and location of various planes

8. Drawbacks of Radar • The benefits of radars can be reversed if used for wrong purposes (ex. Missiles) • Dependency on radars can be disastrous for airlines or ships that can lose radio transmission through jamming, severe weather, etc. • Low risk of radiation due to transmission

10. Video on Radar http://www.youtube.com/watch?v=kFoh7_JssuQ