Only if it exceeds the speed of sound while still in Earth's atmosphere. After that, there's no shockwave, just as none is produced by the GPS satellites, TV satellites, and the Moon, all of which move at several times the speed of sound.
no
Speed up
As far as I know, reactors come in different sizes, producing different amounts of power, so you would expect the amount radiation to vary, as well.
It is the gravitational pull from the Earth that gives us weight. Therefore, as the gravity on the Moon is a lot less, we would weight less on the Moon.
I would expect the light bulb to fail.
I would expect to hear an echo in a gymnasium because if you think of a basketball bouncing just 1 you hear it coming right back at you.
A shock wave would not propagate outward from the collision into space because there is almost no matter in space to propagate the wave.
That depends on the speed of the spaceship. If it were traveling at the speed of light, which is the maximum speed that any object can reach, it would take 640 years to get there.
Speed up
they would produce corn
they would produce corn
The kidneys would secrete elevated amounts of erythropoietin.
vaporization of the spaceship
189 degrees
which tubes?
If I went to travel in a spaceship, I would take a lot of pictures.
No. The reason why is, the astronaut and the spaceship are traveling at the same speed. The astronaut would have to careful though! Because, if the astronaut pushed away slightly from the spaceship as the astronaut stepped out, the astronaut would drift away from the spaceship and would continue to drift across space forever, provided the astronaut didn't bump into anything out there or get sucked in by the gravity field of a planet or a star. That's why when they do an EAV (Extravehicular Activity) they have to either be tethered to the spacecraft or have a MMU (Manned Maneuvering Unit). The MMU is kinda like a jet pack of sorts, it lets the astronaut fly around the spaceship with compressed jets of air.
Higher