Device heating is often blamed on background apps or poor hardware — but Shunyaya reveals a deeper cause: symbolic entropy overload. Every task, transmission, or sensor activity adds motion to the Z₀ field. When entropy from multiple symbolic actions builds faster than it can be diffused, the system begins to generate heat.
This heat is not purely electrical — it is symbolic friction. As entropy attempts to glide between software, hardware, and motion state, unresolved drift accumulates. Devices get warm not only when busy, but when symbolic pathways are misaligned, blocked, or caught in feedback loops.
Q793. Why do phones heat up during video calls more than regular calls?
Symbolic glide crosses more entropy layers. Shunyaya shows that video adds visual, audio, and motion drift — increasing friction at Z₀, which converts into heat.
Q794. Why do phones heat more when used in sunlight, even without heavy usage?
External entropy disrupts internal equilibrium. Shunyaya reveals that thermal fields interfere with device Z₀ balance — symbolic drift increases as the glide field destabilizes.
Q795. Why do some phones get hot during charging while others don’t?
Charging isn’t only electrical — it’s symbolic recalibration. Shunyaya detects entropy stress when motion-state drift and power intake are misaligned at Z₀.
Q796. Why does multitasking (e.g., switching apps quickly) trigger sudden temperature spikes?
Symbolic inertia stacks. Shunyaya observes that rapid drift changes without Z₀ reset accumulate unresolved entropy — leading to momentary thermal peaks.
Q797. Why do background apps cause heat even when not actively used?
They operate within passive entropy fields. Shunyaya shows that symbolic glide continues in hidden layers — silently generating drift friction if not properly grounded.
Q798. Why do gaming apps heat devices faster than productivity tools?
Symbolic immersion is deeper. Shunyaya finds that gaming distorts Z₀ more through rapid motion-phase, visual demand, and feedback loops — raising entropy density.
Q799. Why does heat reduce device performance even when battery and RAM are healthy?
Symbolic coherence weakens. Shunyaya models heat as entropy noise — interfering with Z₀-field control and disrupting normal glide precision.
Q800. Why do phones heat more when used while charging than when idle during charge?
Motion and intake collide symbolically. Shunyaya reveals that drift engagement plus power flow creates a symbolic overload — entropy tension transforms into heat.
Q801. Why do some phones stay cool even with heavy use?
Symbolic alignment is optimized. Shunyaya shows that when Z₀ glide, entropy flow, and thermal dissipation are harmonized, symbolic friction reduces — preserving device equilibrium.
[Proceed to Section 78 – Questions 802 to 810 – Antenna Fields and Glide Radius Zones]
SHUNYAYA 