In an age where curiosity often drives viral internet experiments, few stunts are as jarring — or as strangely compelling — as pitting consumer electronics against high-voltage devices like tasers. One such bizarre showdown has gained attention online: the iPhone 6 Plus versus a taser. At first glance, it sounds like something out of a sci-fi sketch comedy. But people have done it. Videos exist. And surprisingly, there’s real science — and human psychology — behind why someone would subject a once-premium smartphone to 50,000 volts.
This isn’t about practicality. It’s not a recommended test for durability. Yet, understanding why these experiments happen reveals more than just reckless behavior. It speaks to our fascination with limits, destruction, and the hidden vulnerabilities of the devices we trust every day.
The Experiment: What Happens When You Zap an iPhone 6 Plus?
When a taser is discharged onto an iPhone 6 Plus, the immediate visual effect is dramatic. Bright arcs of electricity jump across the screen and metal frame, often accompanied by smoke, sparks, and a sharp cracking sound. In most documented cases, the phone shuts down instantly. The display may flicker or go black. Some units reboot after the shock; others remain unresponsive.
The internal damage varies. Tasers deliver high-voltage pulses (typically 25,000 to 50,000 volts) at low amperage, which is designed to disrupt neuromuscular control in humans without causing fatal injury. However, that voltage is still enough to overwhelm the delicate circuitry of a smartphone. The iPhone 6 Plus, with its aluminum body and exposed antenna lines, acts as a conductor, allowing current to travel along the chassis and into internal components.
Common outcomes include:
- Fried logic board or power management IC
- Cracked or permanently damaged LCD/OLED layers
- Battery swelling or thermal runaway
- Corrosion or carbon tracking on internal traces
Who Actually Tries This — and Why?
The individuals conducting these tests typically fall into one of three categories: curious hobbyists, content creators, or amateur scientists testing urban myths.
Hobbyists with an interest in electronics often explore failure modes out of pure intellectual curiosity. They want to know how devices respond to extreme conditions. For them, the iPhone 6 Plus — now outdated and widely available secondhand — is a low-cost candidate for destructive testing.
Content creators, particularly on platforms like YouTube and TikTok, perform these stunts to generate engagement. A video titled “I Zapped My iPhone With a Taser” is bound to attract clicks. Shock value (pun intended) drives views, comments, and shares. While some creators document the process responsibly, others prioritize spectacle over safety.
Then there are those investigating real-world concerns. Could a taser accidentally damage a phone carried in a pocket during police intervention? Is there any risk to bystanders if someone is tased near electronic devices? These questions, though rare, have legitimate public safety implications.
“People don’t break things just to destroy — they do it to understand. Destruction can be a form of inquiry.” — Dr. Lena Torres, Cognitive Psychologist specializing in risk-taking behavior
Technical Breakdown: iPhone 6 Plus Vulnerabilities
The iPhone 6 Plus, released in 2014, was Apple’s first large-screen iPhone. Its design includes a unibody aluminum frame, glass front, and a non-removable lithium-ion battery. From an electrical standpoint, several features make it susceptible to taser damage:
| Component | Vulnerability | Reason |
|---|---|---|
| Aluminum Chassis | High | Conductive material allows current to spread across the device |
| Logic Board | Extreme | Sensitive microchips can be fried by voltage surges |
| Battery | Moderate to High | Lithium-ion cells can overheat or rupture under electrical stress |
| Display Assembly | High | Thin conductive layers in touchscreen are easily disrupted |
| Antenna Lines | Moderate | Plastic gaps in the frame can channel arcing |
Unlike modern smartphones with improved ESD (electrostatic discharge) protection, the iPhone 6 Plus lacks robust shielding against external high-voltage events. While it includes basic surge protection for charging circuits, it offers no defense against direct taser contact.
Mini Case Study: The Viral Taser Test
In 2017, a YouTube creator known for gadget destruction uploaded a video titled “Tasing My Old iPhone 6 Plus – What Happens?” The video, viewed over 2 million times, showed the host using a standard 33-watt stun gun (marketed as a self-defense tool) on a powered-on iPhone 6 Plus.
The phone was placed on a wooden table. Upon contact, visible arcs formed between the taser probes and the phone’s edge. Smoke rose from the speaker grille. The screen flashed white, then went dark. After disconnecting the taser, the user attempted to restart the device. It vibrated once but failed to boot. A teardown revealed charring near the Lightning port and a swollen battery.
Though the experiment yielded no new scientific insights, it sparked widespread discussion about device durability, the ethics of destructive content, and the risks of replicating such stunts.
Step-by-Step: How These Tests Typically Unfold
While strongly discouraged, understanding the process helps explain both the risks and motivations:
- Device Selection: An old or broken iPhone 6 Plus is sourced — ideally one no longer in daily use.
- Safety Setup: Conducted outdoors or in a ventilated area, away from flammable materials and people.
- Power State: The phone is usually turned on to observe real-time effects on the display and system.
- Taser Application: The taser is activated and held against the side or back of the phone for 2–5 seconds.
- Observation: Immediate reactions (sparks, shutdown, smoke) are recorded.
- Post-Test Analysis: Attempts to reboot, charge, or disassemble the device to assess internal damage.
FAQ: Common Questions About iPhones and Tasers
Can a taser really destroy a smartphone?
Yes. While tasers are designed to be non-lethal to humans, their high-voltage output can easily overwhelm the sensitive electronics in a smartphone, leading to permanent damage.
Is it dangerous to tase a phone?
Extremely. There is risk of fire, explosion (especially from the lithium-ion battery), and flying debris. Additionally, using a taser on any object outside its intended purpose may violate local laws.
Has Apple ever tested iPhones against tasers?
No official documentation suggests Apple conducts taser resistance testing. Their durability tests focus on drops, water exposure, and temperature extremes — not high-voltage electrical attacks.
Conclusion: Curiosity, Caution, and the Cost of Experimentation
The iPhone 6 Plus vs taser experiment may seem absurd, but it reflects deeper human tendencies: the desire to test boundaries, the allure of instant gratification through spectacle, and the need to demystify technology by seeing how it breaks. While the results are often predictable — smoke, silence, and a dead phone — the reasons people pursue these tests are complex.
For hobbyists, it’s education. For creators, it’s engagement. For some, it’s simply, “What if?” But with every zap comes risk — not just to the device, but to personal safety and responsible digital culture.
If you’re intrigued by how electronics respond to extreme stimuli, consider safer alternatives: circuit simulators, controlled lab environments, or studying existing teardowns. There’s value in exploration, but it shouldn’t come at the cost of danger or recklessness.
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