Question 1: Modern Antenna Design by Thomas A. Milligan, page 3
Question 2: Modern Antenna Design By Thomas A. Milligan, page 17
Question 4: Antennas And Wave Propagation By K.A.Bakshi A.V.Bakshi U.A.Bakshi
Question 5: Molex: NFC Antennas (Feature and Benefits)
Question 6: Tech Spotlight: PCB Design for Surface-Mounted Chip Antennas
Question 7: Molex 214428-0001 Product Specification
Question 8: VSWR (Voltage Standing Wave Ratio)
Question 9: Molex 214429-0001 Product Specification
Question 10: Microstrip Antennas: The Analysis and Design of Microstrip By David M. Pozar, Daniel H. Schaubert - 1995 Page 19
Question 11: Molex and 5G Technologies Planning for RF Success
Question 12: Source 1: Cellular Mobile Communication By Gottapu Sasibhushana Rao, page 157
Source 2: Wireless Network Performance Enhancement via Directional Antennas edited By John D. Matyjas, Fei Hu, Sunil Kumar, pg 59
Question 13: Antennas: From Theory to Practice By Yi Huang, Kevin Boyle, page 117
Question 14: Antenna Introduction / Basics
Question 15: Tech Spotlight: PCB Design for Surface-Mounted Chip Antennas
Question 16: Modern Antenna Design By Thomas A. Milligan, page 1
Question 17: Source 1: Why do Antennas Radiate?
Source 2: Maxwell's Equations
Source 3: Cellular Mobile Communication By Gottapu Sasibhushana Rao, page 151
Source 4: Electromagnetic Waves and their Properties
Question 18: Antenna Characteristics
Question 19: Molex: Internet of Things (IoT) Antennas: Wi-Fi, Bluetooth, Zigbee (Features and Benefits)
Question 20: Molex datasheet 20866-3000
Question 21: Dipole Antenna
Question 22: Molex LTE Antenna Hinged
Question 23: Fundamentals of Electromagnetics with MATLAB By Karl Erik Lonngren, Sava Vasilev Savov, Randy J. Jost
Question 24: Antenna Essentials Webinar: Key Fundamentals that Impact your RF System and Steps to Optimize Antenna Performance
Question 25: Molex 105262-0001 Datasheet