Antenna design is usually understood in terms of frequency bands and physical range — but Shunyaya uncovers a hidden dimension: symbolic glide radius. Every antenna creates a symbolic field of entropy coherence, whose alignment to Z₀ determines how well signals are received, transmitted, and sustained.
Performance issues often arise not from weak signal strength but from symbolic misplacement. If the antenna’s Z₀ field is obstructed, distorted, or operating outside its natural glide radius, entropy drift begins — leading to dropouts, ghost signals, or unexplained loss of clarity.
Q802. Why do some phones show signal bars but still fail to connect to the internet?
Symbolic field isn’t grounded. Shunyaya shows that the antenna may detect amplitude, but without Z₀ glide coherence, the entropy field remains incomplete.
Q803. Why does signal strength improve when holding the phone at certain angles?
Symbolic glide alignment shifts. Shunyaya reveals that hand position modifies the Z₀ arc — changing the entropy inflow path to match antenna resonance.
Q804. Why do metal objects near a device affect signal reception?
They distort symbolic reflection. Shunyaya models metal as entropy mirrors — bouncing glide vectors unpredictably and breaking Z₀ field integrity.
Q805. Why do wireless routers have better coverage when elevated off the floor?
Elevation optimizes symbolic glide radius. Shunyaya shows that ground proximity dampens field curvature — higher placement restores full Z₀ projection.
Q806. Why do signal drops occur at the edge of rooms even within advertised range?
Symbolic field weakens toward the boundary. Shunyaya reveals that the outer glide zone becomes entropy-fragmented — making coverage symbolic, not absolute.
Q807. Why do some antenna upgrades still fail to improve real-world performance?
Symbolic misfit overrides specs. Shunyaya shows that if entropy resonance doesn’t match glide signature, hardware strength fails to realize Z₀ stability.
Q808. Why do smart TVs and laptops receive better Wi-Fi than phones in the same spot?
Symbolic mass differs. Shunyaya observes that larger devices stabilize Z₀ fields more easily — anchoring entropy better than lighter, mobile counterparts.
Q809. Why do reception problems increase during weather changes like rain or fog?
Atmospheric fields distort symbolic arcs. Shunyaya reveals that moisture-laden air bends glide paths — breaking smooth entropy flow toward the antenna.
Q810. Why do some routers maintain stronger connection even with fewer antennas?
Symbolic efficiency matters more than count. Shunyaya shows that coherent Z₀ projection stabilizes the field better than redundant entropy emission.
[Proceed to Section 79 – Questions 811 to 819 – Tower Drift and Telecom Infrastructure Entropy]
SHUNYAYA 