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| Conversions Table |
|---|
| 9 Standard Gravity to Miles Per Hour Per Second = 197.4317 | 600 Standard Gravity to Miles Per Hour Per Second = 13162.1108 |
| 10 Standard Gravity to Miles Per Hour Per Second = 219.3685 | 800 Standard Gravity to Miles Per Hour Per Second = 17549.481 |
Barely over a quarter of normal Earth gravity. To equal 1g of acceleration, a car would need to get to 60 in 2.74 seconds, roughly. If we want to be really, really exact, it looks like 1g is getting to 60 MPH in 2.73511683 seconds.
By 2024, it's projected to reach a maximum speed of 430,000 mph (692,000 km/h). As of the 27th of September 2020, the Parker Solar Probe has already accelerated to a speed of 289,927 mph (466,592 km/h) relative to the Sun, officially becoming the fastest spacecraft to date.
The short answer is "yes"—there is gravity in space. Look back at the gravitational equation above. What changes in that equation as you move from the surface of the Earth into space? The only difference is the distance between you and the center of the Earth (the r).
Artificial gravity can be created using a centripetal force. Thus, the "gravity" force felt by an object the centrifugal force perceived in the rotating frame of reference as pointing "downwards" towards the hull.
1G is the acceleration we feel due to the force of gravity. It's what keeps our feet firmly planted on the ground. Gravity is measured in metres per second squared, or m/s2. On Earth, the acceleration of gravity generally has a value of 9.806 m/s2 or 32.1740 f/s2.
“Our bodies are surprisingly resilient in many situations, but rapid acceleration is not one of them. While the human body can withstand any constant speed—be it 20 miles per hour .”
So, light-speed travel and faster-than-light travel are physical impossibilities, especially for anything with mass, such as spacecraft and humans. However, even a miniscule proton would require near-infinite energy to actually reach the speed of light, and humans haven't figured out near-infinite energy quite yet.
One gig internet runs at 940 Mbps, downloading data at a rate of 112.06 MB/second. At this speed you can download a 500 MB video conference in approximately 4 seconds. With fiber-optic internet, upload speeds increase up to 840 Mbps, freeing up bandwidth. 1 gig can support up to 100 workers without lag.
"And no blood in the brain means no oxygen in the brain." Your brain cells hold a small oxygen reserve that can keep them functioning for about 4 seconds, Fan said. After that reserve is depleted, the brain will "shut down," causing you to lose consciousness as the boy in the GIF did. This is G-LOC.
Acceleration is described in units of the force called “Gs.” A pilot in a steep turn may experience forces of acceleration equivalent to many times the force of gravity. This is especially true in military fighter jets and high-performance, aerobatic aircraft where the acceleration forces may be as high as 9 Gs.
You can keep accelerating as long as you have the means. Due to the distorting effects of the theory of relativity on space and time, you can keep accelerating at a constant acceleration forever, and yet never hit the speed of light.
Understanding g-force100kph is 28m/s, 28 / 2.3 = 12m/s2, 12 / 9.8 = 1.2g.
If you would accelerate to the 99,99% of the speed light in just 1 second, you would experience a G-force of aprox. 30,600,000 g's (that's 3 million times more than enough to kill you in a couple of seconds).
First of all, a light-year is the distance light travels in one year. The star Alpha Centauri is about 4 light-years away, so light from Alpha Centauri takes 4 years to get to the Earth.
Voyager 1 is expected to keep its current suite of science instruments on through 2021. Voyager 2 is expected to keep its current suite of science instruments on through 2020. Even if science data won't likely be collected after 2025, engineering data could continue to be returned for several more years.
Through a small telescope, the single star we see as Alpha Centauri resolves into a double star. This pair is just 4.37 light-years away from us. In orbit around them is Proxima Centauri, too faint to be visible to the unaided eye.
Both Voyager 1 and 2 are extremely out-of-the-plane of our Solar System now, with Voyager 1 to the north and Voyager 2 to the south. Radio transmitters are needed in both hemispheres to contact them.
Traveling at light speed, it would take 3,000 years to get there. Or 28 billion years, going 60 mph.
If confirmed, it could mean a life-supporting planet resides is just a stone's throw away from Earth, orbiting a sun-like star. An international team of astronomers has found signs that a habitable planet may be lurking in Alpha Centauri, a binary star system a mere 4.37 light-years away.
The Voyagers have enough electrical power and thruster fuel to keep its current suite of science instruments on until at least 2025. By that time, Voyager 1 will be about 13.8 billion miles (22.1 billion kilometers) from the Sun and Voyager 2 will be 11.4 billion miles (18.4 billion kilometers) away.
The nearest star is four light years away. That means that light, traveling at 300,000 kilometers per second would still need FOUR YEARS to reach the nearest star. The fastest spacecraft ever launched by humans would need tens of thousands of years to make that trip.
