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Inertia plays a crucial role in the movement of objects in space by keeping them in motion or at rest unless acted upon by an external force. This means that objects in space will continue moving in a straight line at a constant speed unless a force, like gravity or thrust, changes their motion.
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Does lighter objects have mor or less inertia then heavier objects?
Lighter Objects have LESS "inertia". Mass is physical manifestation of inertia. Mass is weight so the more mass the more potential inertia to over-come -- either to make an object move or to stop an object once it is moving. So, if a meteorite weighing 1 gram hits a space station weighing 1,000 tons the likelihood of the object causing damage is proportional to the speed of the meteorite; but if the meteorite weighs 1,000 tons (same as space station) the sheer mass alone would cause damage (regardless of movement because any movement would be too much.)
Is there friction in space, and if so, how does it affect the movement of objects in the vacuum of space?
Yes, there is some friction in space, known as "interstellar medium" or "space dust." This friction can affect the movement of objects in space by gradually slowing them down over time, especially for spacecraft traveling at high speeds. However, the impact of this friction is minimal compared to the effects of gravity and inertia in the vacuum of space.
What two forces keep objects in space?
Gravity and inertia are the two forces that keep objects in space. Gravity pulls objects toward each other, while inertia is the tendency of objects to continue moving in a straight line at a constant speed unless acted upon by an external force.
What forces cause the movement of objects in space?
Gravity is the primary force that causes the movement of objects in space. Additionally, other factors such as momentum, thrust from engines, and interactions with other celestial bodies can also influence the movement of objects in space.
How does the concept of gravitize affect the movement of objects in space?
The concept of gravitize, or gravity, affects the movement of objects in space by exerting a force that pulls objects towards each other. This force influences the trajectory and speed of objects in space, causing them to orbit around larger bodies like planets or stars.
Does lighter objects have mor or less inertia then heavier objects?
Lighter Objects have LESS "inertia". Mass is physical manifestation of inertia. Mass is weight so the more mass the more potential inertia to over-come -- either to make an object move or to stop an object once it is moving. So, if a meteorite weighing 1 gram hits a space station weighing 1,000 tons the likelihood of the object causing damage is proportional to the speed of the meteorite; but if the meteorite weighs 1,000 tons (same as space station) the sheer mass alone would cause damage (regardless of movement because any movement would be too much.)
Is there friction in space, and if so, how does it affect the movement of objects in the vacuum of space?
Yes, there is some friction in space, known as "interstellar medium" or "space dust." This friction can affect the movement of objects in space by gradually slowing them down over time, especially for spacecraft traveling at high speeds. However, the impact of this friction is minimal compared to the effects of gravity and inertia in the vacuum of space.
What two forces keep objects in space?
Gravity and inertia are the two forces that keep objects in space. Gravity pulls objects toward each other, while inertia is the tendency of objects to continue moving in a straight line at a constant speed unless acted upon by an external force.
What forces cause the movement of objects in space?
Gravity is the primary force that causes the movement of objects in space. Additionally, other factors such as momentum, thrust from engines, and interactions with other celestial bodies can also influence the movement of objects in space.
Why do things move steadily in space?
In space, objects move steadily due to inertia, which is the tendency of objects to continue moving in a straight line unless acted upon by an external force. Without air resistance or other forces to slow them down, objects in space will continue moving steadily on their own inertia.
What is space telescope used for?
To take pictures of space objects and observe planets and their movement.
How does the concept of gravitize affect the movement of objects in space?
The concept of gravitize, or gravity, affects the movement of objects in space by exerting a force that pulls objects towards each other. This force influences the trajectory and speed of objects in space, causing them to orbit around larger bodies like planets or stars.
Could someone lift heavy objects in space?
Your question is very nearly meaningless, because "in space" is not a well defined location and different locations and motions in space would have different properties. In freefall, which is what I suspect you meant, objects have no "weight" per se, but they still have inertia. It would therefore be possible to move objects you could not move on Earth, but it would not necessarily be easy, and if the object was already moving it could be difficult to stop it.
How do earth and other objects move in space?
The movement of the planets (inertia) moves them perpendicular to the sun at about the same rate that the gravity from the sun pulls the planets in. The gravity of the sun is a little stronger as the earth is slowly, but continuously getting closer to the sun.
What is the force that causes things to move in space?
A force can cause an object to move if the amount of the force in the direction of movement is larger than the Frictional force of the object against the object on which it rests, and can overcome its Inertia.
Is space relative in terms of the movement of celestial bodies?
Yes, space is relative in terms of the movement of celestial bodies. This is described by Einstein's theory of relativity, which explains how the motion of objects in space is influenced by the curvature of spacetime caused by massive objects like planets and stars.
Do you have less inertia in outer space?
No you more inertia in outer space than anywhere else.
