Its called physics. When you travel into space at 17000mph then your speed is constant because there is no friction. You do the maths. Its also known as logic. But you yanks cant get that bit. If you want it explained properly then grow some braincells.
No. A submarine's propeller relies on the water around it for something to push against. As space is a vacuum, the propeller would have nothing to push against, ergo the submarine would have no thrust.
The action of burning fuel creates thrust. Newton's Law: "To every action, there is an equal and opposite reaction". The "push" is on the shuttle itself, not on the surrounding space. Forward motion depends on the speed and mass of the exhaust.
In the exosphere, a space shuttle uses thrusters to maneuver by controlling its attitude and orientation. These thrusters help adjust the spacecraft's position without relying on air or other external forces. The shuttle can change its trajectory by firing specific thrusters to push against the vacuum of space.
It's because that it needs a cell wall to push against and an animal cell doesn't have one therefore nothing to push against.
They move just like snake do. They use small currents in the water to push against to propel themselves forward. Often, these currents are undetectable. Also, if there are no currents available, they use small "fins" to push against the water to move forward.
The weaver had to push the shuttle by hand, which was much slower.
A space shuttle still has to leave the atmosphere, we aren't building them in space. While leaving the atmosphere a space shuttle causes a lot of friction as it rubs against the air on the way up.
Because nothing can be still and if more magma forms it has to push the rest away
Push :) Hope i helped
They work in space because they are nigrogen pushes them up.
Wind too is nothing but matter. So minute molecules with their movements has gained momentum and with that it could push any other matter.
Push and pull are types of motion rather than forms of friction. Friction is the resistance encountered when two objects move against each other. Push involves applying force to move an object away, while pull involves applying force to move an object towards oneself.