Yes. It doesn't matter where you are, what position you're in, how fast you're
moving or in what direction, what the weather is like, or whether your eyes are
open or shut. You don't feel motion. You only feel a change in motion ... speed
or direction, which is called acceleration. That's all you can feel.
If the rocket motor is thrusting its guts out but you're anchored to the spaceport
and not going anywhere, you don't feel it. But as soon as you cast off the anchor
and your ship is allowed to accelerate, then you feel it. So I guess, to be precise,
it's not the thrust you feel; it's the acceleration that results from the thrust.
A rocket needs enough thrust to overcome Earth's gravitational pull and achieve the required velocity to reach outer space, typically around 25,000 mph (40,000 km/h). The exact thrust needed depends on various factors such as the rocket's size, weight, and the altitude it needs to reach.
People can get to outer space by launching spacecraft using rockets. These rockets provide enough thrust to escape Earth's gravitational pull and reach the boundary between Earth's atmosphere and space, known as the Kármán line. Once there, spacecraft can travel further into outer space to visit other planets, moons, or celestial bodies.
To reach outer space, rockets must escape the force of gravity. Gravity is the force that pulls objects towards the center of a mass, such as the Earth. Rockets need to generate enough thrust to overcome Earth's gravity and reach escape velocity to enter outer space.
Payload (apex)
payload
In a space shuttle at outer space, you will be going almost 100mp so you will not feel so well when you get out probably
lite
A rocket needs enough thrust to overcome Earth's gravitational pull and achieve the required velocity to reach outer space, typically around 25,000 mph (40,000 km/h). The exact thrust needed depends on various factors such as the rocket's size, weight, and the altitude it needs to reach.
People can get to outer space by launching spacecraft using rockets. These rockets provide enough thrust to escape Earth's gravitational pull and reach the boundary between Earth's atmosphere and space, known as the Kármán line. Once there, spacecraft can travel further into outer space to visit other planets, moons, or celestial bodies.
To reach outer space, rockets must escape the force of gravity. Gravity is the force that pulls objects towards the center of a mass, such as the Earth. Rockets need to generate enough thrust to overcome Earth's gravity and reach escape velocity to enter outer space.
Payload (apex)
payload
Pretty darn close, the SR71 can go out as far as the outer atmosphere.The limitation is that a jet engine needs oxygen to create the flame to get thrust from the engines, and there isn't any in outer space.Rocket engines are used to travel to outer space,and they carry their own oxygen for combustion, or use solid fuel that also creates its own oxygen.
To move? Search "thrust" in google
Being in a space shuttle in outer space would likely feel both exhilarating and awe-inspiring. The feeling of weightlessness and looking out at the vastness of space would be overwhelming yet incredibly exciting. It could also induce a sense of vulnerability and isolation due to being so far from Earth.
outer (as in "outer space")
According to Newton's 3rd Law (Every force has an equal and opposite reaction) So once say for example the Space Shuttle gets into space it fires small bursts from it's thrusters for changes to course. To slow it does a forward thrust to stop it's speed. TO change direction it uses an unbalanced thrust from it's diffrent sides (hence the multiple nozzles on the back of the Space shuttle) Allowing it to SLow, speed up, and change diraction.