A new video has been causing a stir on social media, shedding light on the terrifying consequences Earth would face if it were to lose all its oxygen for just five seconds. The hypothetical scenario depicted in the video has sparked widespread concern, as it unveils the potential chaos that would ensue in the absence of this vital gaseous element.

While the notion of holding one’s breath for five seconds may seem feasible for most humans, the video underscores the catastrophic impact that the disappearance of oxygen would have on the planet. Notably, the video highlights the expected consequences, such as the depletion of Earth’s protective ozone layer, as well as some surprising revelations that have captured the attention of viewers.

Despite the continued presence of sunlight, the video suggests that the world would plunge into complete darkness, rendering many of the fast-paced catastrophes virtually imperceptible to the human eye. Thomas Mulligan, known as @mulligan.tv on TikTok, elaborates on the potential effects, stating that initially, the absence of oxygen may go unnoticed by the human body. However, the stark transformation would become evident as the sky turns pitch black, attributed to the lack of oxygen to scatter the sun’s rays.

With a following of nearly 963,000 on the platform, Mulligan, originally from Vancouver, Canada, has garnered attention for his concise explanations and scientific insights, particularly focusing on topics such as outer space, technology, and renowned scientific figures like Albert Einstein and Carl Sagan.

The video also underscores the immediate impact on transportation systems reliant on combustion, which would cease to function. Moreover, the loss of the ozone layer would initiate a perilous process, described by Mulligan as ‘the cooking process,’ posing a fatal threat to all living organisms.

The video has prompted widespread contemplation about the potential ramifications of such a catastrophic event, raising awareness about the critical role of oxygen in sustaining life on Earth.