Intelligence Officials Say U.S. Has Retrieved Craft of Non-Human Origin LESLIE KEAN and RALPH BLUMENTHAL·**June 5, 2023** https://thedebrief.org/intelligence-officials-say-u-s-has-retrieved-non-human-craft/ [Subcommittee on National Security, the Border, and Foreign Affairs Hearing](https://www.youtube.com/watch?v=KQ7Dw-739VY) Navy's Story at the 51' of Hearing, CDR. Fravor (Ret.) statement : "UAP was 60 miles away in less than a minute" To convert miles to kilometers, you can use the conversion factor that 1 mile is approximately equal to 1.60934 kilometers. So, to convert 60 miles to kilometers: **60 miles × 1.60934 km/mile ≈ 96.5604 kilometers** #### Q: Speed of point A to B in 1 minute. distance is 60 miles or ~96.5604 kilometers. ChatGPT To calculate the speed from point A to B, where the distance is 60 miles and the time taken is 1 minute, we need to convert the distance and time to consistent units, typically kilometers and hours. 1 mile is approximately equal to 1.60934 kilometers. 1 minute is equal to 1/60 hours (because there are 60 minutes in an hour). Now, let's calculate the speed: Distance in kilometers = 60 miles × 1.60934 km/mile ≈ 96.5604 kilometers Time in hours = 1 minute × 1/60 hours/minute = 1/60 hours Speed = Distance ÷ Time Speed = 96.5604 km ÷ (1/60) hours Now, to divide by a fraction, you can multiply by its reciprocal: Speed = 96.5604 km × 60 hours Speed ≈ 5793.624 kilometers per hour So, the speed of UAP from point A to B was of approximately **5793.624 km/hour** [personal note] *It's either they move that fast of they move through space layers/interdimentionality which would explain how they can turn that easily, let alone take the Machs, if there is living beings in there* --- ### World fastest (2021 data) X-15 aircraft speed = would cover approximately **136.5 kilometers** in 1 minute As of my last update in September 2021, **the fastest air force aircraft, the North American X-15**, reached a maximum speed of Mach **6.72** To calculate the distance covered by the X-15 in 1 minute, we need to convert its speed from Mach to kilometers per minute. The speed of sound at sea level and room temperature is approximately 1,225 kilometers per hour (761 miles per hour). To calculate the speed of the X-15 in kilometers per minute: Speed in kilometers per minute = (Speed in Mach) × (Speed of sound in km/h) × (1 minute / 60 minutes) Speed in kilometers per minute ≈ (6.72) × (1,225 km/h) × (1/60) Speed in kilometers per minute ≈ 136.5 km/minute Now that we know the speed of the X-15 in kilometers per minute (approximately 136.5 km/minute), we can calculate the distance it would cover in 1 minute by simply multiplying the speed by the time: Distance covered in 1 minute = Speed in kilometers per minute × Time in minutes Distance covered in 1 minute ≈ 136.5 km/minute × 1 minute Distance covered in 1 minute ≈ 136.5 kilometers **So, at its maximum speed, the X-15 would cover approximately 136.5 kilometers in 1 minute.** Keep in mind that this information is based on data available up until September 2021, and there may have been new developments in aviation since then. ### **Distance = Speed × Time** ### Mach formula **Mach number = Speed of object ÷ Speed of sound** ### **Speed of sound in km** ChatGPT The speed of sound in dry air at sea level and at a temperature of around 20 degrees Celsius (68 degrees Fahrenheit) -> **is approximately 343 meters per second, which is equivalent to about 1,235 kilometers per hour** or 767 miles per hour. This value can vary slightly depending on factors like temperature, humidity, and altitude. However, the value mentioned above is a commonly used approximation for the speed of sound in air under standard conditions. **UAP spotted from one point to 96km away in less than 1 minutes !** ### What is the fastest spacecraft ? ChatGPT As of my last update in September 2021, the fastest spacecraft ever launched by humans is the Parker Solar Probe. **Launched on August 12, 2018, by NASA, the Parker Solar Probe is a robotic spacecraft designed to study the outer corona of the Sun.** To achieve its mission objectives, the **Parker Solar Probe** makes use of a series of gravity assists from Venus to gradually decrease its orbital speed and get closer to the Sun. **During its closest approach to the Sun**, the spacecraft reaches speeds of around **700,000 kilometers per hour** (about 430,000 miles per hour). This incredible **speed allows** the Parker Solar Probe **to endure the intense heat and radiation near the Sun's** surface and conduct valuable scientific observations that provide new insights into our star. Keep in mind that advancements in space exploration are continuous, and there may have been new missions or developments in space technology since my last update. I recommend checking with official sources or up-to-date references for the latest information on spacecraft and their speeds.