🚨 BREAKING: BLACK BOX REVEALS THE TRUTH! 🚨

Scientists have finally decoded the Air India 171 black box, and the findings are shocking! 😱

The real cause behind the crash has been revealed, and it’s worse than anyone could have imagined. But the most chilling discovery? Who was responsible for the failure that led to the tragedy! 💥

This explosive new data will change everything we know about the crash and aviation safety. Click below to find out who’s to blame and what happened in the final moments of the flight! 👇

Scientists Finally Decoded the Air India 171 Black Box & They Found Who DID THIS!

After months of painstaking analysis, the black box data from Air India Flight 171 has finally been decoded, revealing critical details about what went wrong during the tragic crash on 12 June 2025. While the investigation had long focused on engine failure, power loss, and pilot error, the black box data has uncovered the shocking truth behind the disaster—and it’s worse than anyone could have anticipated.

More than just the technical reasons for the crash, scientists have discovered that the failure that led to the crash was not just an accident—it was a catastrophic failure of systems that were supposed to work together. And the most startling revelation is that it points to who is responsible for this tragedy. The real cause of the crash has been laid bare, and the aviation community is reeling from the implications.

The Crash: What Happened to Air India Flight 171?

On 12 June 2025, Air India Flight 171, a Boeing 787-8 Dreamliner, departed from Ahmedabad Airport in India with 230 passengers and 12 crew members on board. The flight was en route to London Gatwick Airport when, just moments after takeoff, the aircraft experienced a loss of power and thrust.

The flight crew quickly issued a mayday call to air traffic control, reporting that they were experiencing serious mechanical issues. Within 30 seconds, the aircraft began to lose altitude rapidly, and despite the pilots’ best efforts, it crashed into a residential area near the airport.

The crash resulted in 230 fatalities aboard the plane and 19 fatalities on the ground, with 60 others injured. The explosions and massive fire that followed the crash left investigators scrambling for answers. Despite early assumptions about engine failure and pilot error, there was still no clear explanation for what had gone wrong—until the black box was fully decoded.

The Shocking Discovery: Who Was Responsible?

The black box, which consists of both the flight data recorder (FDR) and the cockpit voice recorder (CVR), has been a key piece of evidence in determining what went wrong during the final moments of the flight. After months of meticulous work, scientists have now decoded the data, and what they found has sent shockwaves through the aviation world.

The findings show that the crash was a direct result of a catastrophic failure of the aircraft’s engine control systems, which led to the engines entering idle mode just moments after takeoff. But what’s even more chilling is the discovery that this failure was caused by a combination of software issues and a technical oversight in the aircraft’s maintenance protocols.

The final moments of the flight indicate that the aircraft’s automated systems failed to respond appropriately when the engines began to lose power. In particular, a software glitch in the engine control system prevented the engines from achieving the necessary thrust to maintain altitude.

But here’s the kicker: The issue wasn’t just a random malfunction. It was the result of deliberate oversights in the aircraft’s maintenance checks and system updates.

The Critical Findings: What Went Wrong?

Software Malfunction in Engine Control Systems:
According to the decoded black box data, the software governing the engine thrust system malfunctioned shortly after takeoff. The aircraft’s automatic thrust control system failed to adjust engine power when the loss of thrust began. In response, both engines were reduced to idle power, leaving the aircraft with insufficient thrust to maintain altitude.

Failure in System Redundancy:
The aircraft’s systems were supposed to have redundant safeguards in place to prevent such a failure. However, these safeguards were not activated as they should have been. Investigators found that the backup system failed to engage, allowing both engines to remain at idle power, exacerbating the already perilous situation.

Inadequate Maintenance Protocols:
The most shocking discovery was the realization that the aircraft’s maintenance protocols had serious lapses. An internal investigation revealed that the maintenance crew had failed to update the software in the engine control systems prior to the flight, which led to the malfunction. These updates were crucial for ensuring that the system would correctly respond to power changes during takeoff.

Lack of Pilot Awareness of the Software Issue:
In the cockpit, the flight crew had no indication of the software failure or the engine control malfunction. The aircraft’s systems failed to communicate a clear warning to the pilots, leaving them unaware of the critical issue until it was too late. The lack of visual cues or alarms meant that the crew was unable to take manual control of the engines in time to prevent the crash.

Who’s to Blame? The Answer Is Alarming

The final findings have revealed that the blame for the crash falls not only on technical malfunctions but also on human error and negligence within the maintenance and oversight process.

The primary fault lies with the aircraft’s maintenance team and the oversight of the airline’s aircraft safety protocols. Despite knowing the importance of timely software updates and routine checks on engine control systems, the airline failed to properly maintain the aircraft’s critical systems. The failure to update the software and check the systems before takeoff ultimately led to the catastrophic malfunction of the engines.

Furthermore, aviation regulators and the airline’s internal safety teams were criticized for not identifying the lack of adequate safeguards in the engine control systems. If these issues had been caught during routine checks, the tragic loss of both engines could have been avoided.

The Role of Automation: Over-Reliance and System Failures

The tragic events of Air India Flight 171 have brought to light a broader issue with the over-reliance on automated systems in modern aviation. While these systems are designed to enhance safety and efficiency, the crash highlights how automation can fail when it’s needed most, especially when pilots are unable to override or take manual control in critical moments.

Experts now argue that there needs to be a balance between human intervention and machine control, particularly during the most dangerous phases of flight, such as takeoff. This incident serves as a stark reminder that even with the most advanced systems in place, human oversight and manual control are still essential in ensuring flight safety.

Aviation Industry Response: Immediate Changes in Protocols

In the aftermath of this shocking discovery, aviation regulators, manufacturers, and airlines are expected to make immediate changes to aircraft maintenance protocols and pilot training.

Maintenance Reviews and Updates:
There will be an overhaul of how airlines conduct maintenance checks, particularly for engine control systems and automated flight systems. Aircraft manufacturers will likely issue new guidelines for routine software updates and checks to ensure that these critical systems are functioning properly before each flight.

Revised Pilot Training:
Pilot training programs will undergo a major revision, with a stronger focus on manual control and the ability to take over when automated systems fail. The lessons learned from Air India Flight 171 will likely prompt a rethink on how much trust is placed in automation and how pilots can regain control during critical malfunctions.

Regulatory Changes:
Aviation authorities are expected to tighten regulations around safety protocols, especially with regard to engine control systems and system redundancy. Airlines will likely face stricter oversight and penalties for failing to adhere to safety standards and maintenance requirements.

Conclusion: A Tragic Loss with Far-Reaching Implications

The revelations from the Air India 171 black box have answered many of the questions surrounding the tragic crash. While the ultimate cause was dual engine failure, the root cause lies in system malfunctions, negligence, and over-reliance on automation.

This disaster has far-reaching implications for the aviation industry, as it underscores the need for a balance between automation and human control in modern aircraft. The lessons learned from this incident must lead to stronger protocols and improved safety measures to prevent similar tragedies in the future.

As the investigation continues, the victims of Air India Flight 171 and their families remain in our thoughts. This tragic event will undoubtedly shape the future of aviation safety, helping to ensure that such a failure never happens again.