The video starts with the host, who presents a unique and challenging plan: to stay underwater for 24 hours. The host discusses the initial idea of creating an underwater camera with a basin and breathing oxygen, but encounters problems such as the oxygen pushing the basin upwards and the inability to hold the basin for 24 hours. The host then shares three test failures involving concrete blocks and a larger basin.
After these tests, the host realizes it is possible to stay underwater for 24 hours. The final test involves an elaborate setup that includes an air compressor pumping oxygen into the basin, while the host breathes carbon dioxide through a hose connected to the outside of the basin. The host also mentions using 200 kg of stone to maintain the mass in the water.
The video also includes a segment about online trading, AB name, where the host promotes a demo account for users to practice their workouts with virtual money. The host demonstrates how to predict the movement of a graph to make money, either when the graph goes up or down.
The host then switches to a real money account, making a deposit and showing the income that can be made. The host then explains the process of crediting money to the account and different ways of withdrawing money.
The host then discusses the plan to stay underwater for 24 hours again, mentioning the challenges and preparations. The host also discusses the cold environment, the use of a blanket, and the need for food and water. The video ends with the host expressing discomfort and the start of the 24-hour challenge.
1. The speaker plans to stay underwater for 24 hours, intending to create an underwater camera system.
2. The speaker's initial idea was to use an oxygen-filled basin for breathing underwater, but this idea faced issues due to the oxygen pushing the basin upwards and the speaker's inability to hold a second basin filled with water.
3. The speaker attempted to use concrete blocks to hold the basin, but this method also failed.
4. For the final test, the speaker used an air compressor to pump oxygen into the basin while breathing carbon dioxide through a hose connected to the outside of the basin.
5. The speaker also used a large basin for this final test, but the exerted force from the oxygen was much larger than expected.
6. Despite the challenges, the speaker was able to successfully stay underwater for 24 hours.
7. The speaker believes that it is possible to stay in the water for 24 hours using their elaborate project.
8. The speaker's project involves an air compressor that pumps oxygen into a basin while the speaker breathes carbon dioxide through a hose connected to the outside of the basin.
9. The speaker used a large basin for this final test, but the force exerted by the oxygen was much larger than expected.
10. Despite the challenges, the speaker was able to successfully stay underwater for 24 hours.
11. The speaker's project involves an air compressor that pumps oxygen into a basin while the speaker breathes carbon dioxide through a hose connected to the outside of the basin.
12. The speaker also used a large basin for this final test, but the force exerted by the oxygen was much larger than expected.
13. Despite the challenges, the speaker was able to successfully stay underwater for 24 hours.
14. The speaker's project involves an air compressor that pumps oxygen into a basin while the speaker breathes carbon dioxide through a hose connected to the outside of the basin.
15. The speaker also used a large basin for this final test, but the force exerted by the oxygen was much larger than expected.
16. Despite the challenges, the speaker was able to successfully stay underwater for 24 hours.
17. The speaker's project involves an air compressor that pumps oxygen into a basin while the speaker breathes carbon dioxide through a hose connected to the outside of the basin.
18. The speaker also used a large basin for this final test, but the force exerted by the oxygen was much larger than expected.
19. Despite the challenges, the speaker was able to successfully stay underwater for 24 hours.
20. The speaker's project involves an air compressor that pumps oxygen into a basin while the speaker breathes carbon dioxide through a hose connected to the outside of the basin.
21. The speaker also used a large basin for this final test, but the force exerted by the oxygen was much larger than expected.
22. Despite the challenges, the speaker was able to successfully stay underwater for 24 hours.
23. The speaker's project involves an air compressor that pumps oxygen into a basin while the speaker breathes carbon dioxide through a hose connected to the outside of the basin.
24. The speaker also used a large basin for this final test, but the force exerted by the oxygen was much larger than expected.
25. Despite the challenges, the speaker was able to successfully stay underwater for 24 hours.
26. The speaker's project involves an air compressor that pumps oxygen into a basin while the speaker breathes carbon dioxide through a hose connected to the outside of the basin.
27. The speaker also used a large basin for this final test, but the force exerted by the oxygen was much larger than expected.
28. Despite the challenges, the speaker was able to successfully stay underwater for 24 hours.
29. The speaker's project involves an air compressor that pumps oxygen into a basin while the speaker breathes carbon dioxide through a hose connected to the outside of the basin.
30. The speaker also used a