logging in or signing up Wave Propagation Ani_Kate Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 700 Category: Education License: All Rights Reserved Like it (1) Dislike it (0) Added: September 07, 2010 This Presentation is Public Favorites: 1 Presentation Description This presentation consists of figures (both line diagrams and complex) which i used while teaching wave propagation. slides contain very less theory/text. diagrams from AWP(K.D. Prasad) and Practical Antennas(Joe Carr). Comments Posting comment... By: rajasekhar441 (8 month(s) ago) its really good very thanks. Saving..... Post Reply Close Saving..... Edit Comment Close Premium member Presentation Transcript Slide 1: 1 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 2: 2 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 3: 3 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 4: 4 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 5: 5 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 6: 6 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 7: Radio waves propagate through free space in a straight line with a velocity of the speed of light (3 x 108 m/s). There is no loss of energy in free space, but there is attenuation due to the spreading of the waves. The power density of an isotropic radiator is simply be the total power divided by the surface area of the sphere, according to the square-law: 7 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 8: 8 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 9: 9 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 10: 10 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 11: 11 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 12: 12 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 13: 13 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 14: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 14 Slide 15: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 15 Slide 16: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 16 Slide 17: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 17 Slide 18: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 18 Slide 19: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 19 Slide 20: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 20 Slide 21: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 21 Tropospheric Scatter Propagation Slide 22: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 22 SkyWave Propagation Slide 23: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 23 Slide 24: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 24 Slide 25: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 25 Slide 26: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 26 Slide 27: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 27 Slide 28: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 28 Slide 29: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 29 Duct Propagation Slide 30: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 30 Figures from- K.D. Prasad (Antenna and Wave propagation) Practical Antennas(Joe Carr) You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Wave Propagation Ani_Kate Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 700 Category: Education License: All Rights Reserved Like it (1) Dislike it (0) Added: September 07, 2010 This Presentation is Public Favorites: 1 Presentation Description This presentation consists of figures (both line diagrams and complex) which i used while teaching wave propagation. slides contain very less theory/text. diagrams from AWP(K.D. Prasad) and Practical Antennas(Joe Carr). Comments Posting comment... By: rajasekhar441 (8 month(s) ago) its really good very thanks. Saving..... Post Reply Close Saving..... Edit Comment Close Premium member Presentation Transcript Slide 1: 1 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 2: 2 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 3: 3 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 4: 4 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 5: 5 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 6: 6 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 7: Radio waves propagate through free space in a straight line with a velocity of the speed of light (3 x 108 m/s). There is no loss of energy in free space, but there is attenuation due to the spreading of the waves. The power density of an isotropic radiator is simply be the total power divided by the surface area of the sphere, according to the square-law: 7 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 8: 8 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 9: 9 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 10: 10 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 11: 11 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 12: 12 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 13: 13 Aniket Bhalerao(Dept. of Electronics and Communication Engineering) Slide 14: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 14 Slide 15: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 15 Slide 16: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 16 Slide 17: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 17 Slide 18: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 18 Slide 19: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 19 Slide 20: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 20 Slide 21: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 21 Tropospheric Scatter Propagation Slide 22: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 22 SkyWave Propagation Slide 23: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 23 Slide 24: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 24 Slide 25: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 25 Slide 26: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 26 Slide 27: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 27 Slide 28: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 28 Slide 29: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 29 Duct Propagation Slide 30: Aniket Bhalerao(Dept. of Electronics and Communication Engineering) 30 Figures from- K.D. Prasad (Antenna and Wave propagation) Practical Antennas(Joe Carr)