Motion in outer space occurs through the interaction of gravity and the initial momentum of objects. Once set in motion, objects in space will continue to move in a straight line unless acted upon by another force (such as gravity from a planet or star). The absence of air resistance in space allows objects to travel at constant speeds and maintain their velocity until another force intervenes.
No, a gasoline engine cannot operate in outer space because it requires oxygen to combust the fuel. In the vacuum of space, there is no air for combustion to occur, so the engine would not work.
The spaceship will move in a straight line at constant speed.
Outer space is mostly a vacuum and does not conduct heat well because it lacks a medium for heat transfer to occur. In the absence of matter to carry thermal energy, heat transfer in space primarily occurs through radiation.
A sphere in outer space is a three-dimensional object with symmetrical and curved surfaces, resembling a ball or a planet. It can occur naturally, such as celestial bodies like planets, stars, or asteroids, or it can be man-made, like a spacecraft or a satellite. Spheres in outer space follow the principles of physics and gravity that influence their movement and interactions with other objects.
Not according to Newtons Law: Forces = Mass X Acceleration However, in a vacuum, after you used your force on an object and it now has motion, the object will have motion for eternity, even when there is no force. So as a matter of fact, it is possible. Just not on any planet, only in outer space.
Yes, the laws of motion apply in outer space.
There is no such thing as "absolute motion" - neither in outer space, nor anywhere else. Motion must always be specified in relationship to some other object.
No, a gasoline engine cannot operate in outer space because it requires oxygen to combust the fuel. In the vacuum of space, there is no air for combustion to occur, so the engine would not work.
If the space is in outer space there can be no gas against which a terminal velocity can occur
In outer space, objects follow Newton's laws of motion, which describe how forces affect the motion of bodies. There is no atmosphere in space, so objects do not experience air resistance. Gravity is the dominant force that governs the motions of objects in space, causing them to orbit planets or other celestial bodies.
In outer space, objects can travel at a constant speed and direction without slowing down because there is no friction or air resistance to oppose their motion. Once an object is set in motion in the vacuum of space, it will continue moving in a straight line unless acted upon by an external force. This allows spacecraft to maintain their velocity even when their engines are turned off.
Hardly. There are a few atoms of gas in outer space, but their density is so low that for most practical applications, they can be ignored.
outer (as in "outer space")
The spaceship will move in a straight line at constant speed.
A rocket propulsion system uses the principle of Newton's third law of motion to propel objects into outer space. By expelling high-speed exhaust gases in one direction, the rocket experiences an equal and opposite force in the opposite direction, pushing it upwards and potentially into outer space.
There is no antonym for outer space.
outer (as in "outer space")