![An isotropic point source emits light of wavelength lamda= 589nm. The radiation power of the source is P=10W. The mean density of the flow of photons at adistance r=2.0m from the source An isotropic point source emits light of wavelength lamda= 589nm. The radiation power of the source is P=10W. The mean density of the flow of photons at adistance r=2.0m from the source](https://d10lpgp6xz60nq.cloudfront.net/web-thumb/647332319_web.png)
An isotropic point source emits light of wavelength lamda= 589nm. The radiation power of the source is P=10W. The mean density of the flow of photons at adistance r=2.0m from the source
![SOLVED: Q1: The normalized radiation intensity of 3 given antenna is given U = B: cos? 8 sino The intensity exists only in the (0282; 0oSt) region and it is zero elsewhere SOLVED: Q1: The normalized radiation intensity of 3 given antenna is given U = B: cos? 8 sino The intensity exists only in the (0282; 0oSt) region and it is zero elsewhere](https://cdn.numerade.com/ask_images/8372d891d96e4e17bf6bb6c19a12b88e.jpg)
SOLVED: Q1: The normalized radiation intensity of 3 given antenna is given U = B: cos? 8 sino The intensity exists only in the (0282; 0oSt) region and it is zero elsewhere
![SOLVED: HW#IO. The radial component of the radiated power density of an antenna is given by sin? 0 W rad = G,W,=6,4 (w /m? where Au is the peak value of the SOLVED: HW#IO. The radial component of the radiated power density of an antenna is given by sin? 0 W rad = G,W,=6,4 (w /m? where Au is the peak value of the](https://cdn.numerade.com/ask_images/7d3688328b9b4102a1c893e45e902d86.jpg)