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If we apply Newton's first law of motion to a ball being thrown in the vacuum of space with a force will the ball move infinitely?
Sort of. But if the ball passes withing any appreciable distance of a black hole, star, planet, planetary body, moon, comet, asteroid, space rock or anything else with mass, it may be affected enough to slow it, change its course, or be captured by whatever it is that "grabs" it with gravity. If you're talking about launching the ball from out in deep space, like the nothingness between galaxies, it's pretty much going to go a long way before anything happens to it (if anything does). Under those conditions, the ball may travel "toward" infinity. Will it actually travel infinitely? We can't know. For all practical purposes, it might be said that it will travel infinitely.
What else can I help you with?
Is it possible to have motion in absence of force?
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.
What advantage do space travelers have using newtons first law of motion?
Space travelers benefit from Newton's First Law of Motion, which states that an object in motion stays in motion unless acted upon by an external force. In the vacuum of space, where there is minimal resistance, spacecraft can maintain their velocity and direction without expending fuel. This allows travelers to conserve energy and travel vast distances more efficiently. Additionally, once in motion, they can perform maneuvers using small adjustments, rather than constant propulsion, to change their trajectory.
Does a propelled object continue increasing in speed infinitely in a vacuum?
For a start, it is not possible to propel it indefinitely. Where should the energy come from? On the other hand, there is a speed limit in the Universe, called the "speed of light". An object can approach the speed of light, but never quite reach it, much lass pass that speed.
Does a gas escape through a tiny opening into a vacuum during effusion?
Yes, a gas can escape through a tiny opening into a vacuum during effusion. Effusion is the process by which gas molecules pass through a small opening into a vacuum due to their random motion. This happens because of the difference in pressure between the gas inside and the vacuum outside.
What is the path and speed of light?
There is no preferred path for the speed of light, other than the shortest path through spacetime. The speed of light is 299,792,458 m/s in a vacuum. Just to clarify, this is the maximum limit of velocity in the universe because it is the maximum velocity that energy can propagate through the universe.
How do you explain how light can travel through the vacuum of space?
Newtons 1st law, "An object in motion will stay in motion unless acted upon by another force." Basicly the photons travel through space gradually spreading out as they hit different particles.
Is a feather falling in a vacuum projectile motion?
No, a feather falling in a vacuum is not considered projectile motion. Projectile motion involves an object being launched horizontally with a certain velocity while experiencing the force of gravity, causing it to follow a curved path. In a vacuum, there is no air resistance or drag force acting on the falling feather, so it falls straight down due to gravity.
Is it possible to have motion in absence of force?
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.
If a ball were thrown in a vacuum what would happen to it?
It would fly and roll much farther than if it were thrown in earth's atmosphere due to reduced friction caused by the lack of air.
What type of force and motion is involved in pushing a vacuum cleaner?
push
Does a propelled object continue increasing in speed infinitely in a vacuum?
For a start, it is not possible to propel it indefinitely. Where should the energy come from? On the other hand, there is a speed limit in the Universe, called the "speed of light". An object can approach the speed of light, but never quite reach it, much lass pass that speed.
How can pendulum oscillate in vacuum even there is no gravity?
A pendulum can oscillate in a vacuum even in the absence of gravity because the motion of a pendulum is governed by its own momentum and inertia, rather than by external forces such as gravity or air resistance. As long as the initial push sets the pendulum in motion, it will continue oscillating back and forth due to its own energy, even in a vacuum.
What branch of electricity deals with the behavior and motion of electrons in a vacuum or special materials?
Vacuum electronics is the branch of electricity that deals with the behavior and motion of electrons in a vacuum or special materials, typically focusing on applications like vacuum tubes, cathode ray tubes, and traveling wave tubes. The study of electron behavior in these conditions is important for various high-power and high-frequency electronic applications.
What shape does the path of a thrown ball follow?
The ball follows a parabolic path when thrown. In a vacuum (with no air or other forces acting upon it) the gravitational pull of the earth causes the ball to accelerate toward the earth (9.8m/sec
Were does light travall the fastest-why?
The fastest speed of light is in a vacuum place because nothing interrupt its motion.
Which type of motion does cathode rays create?
Cathode rays create straight-line motion. They are streams of electrons that travel in a straight line from the cathode to the anode in a vacuum tube.
What is the ratio of the time taken to go up and come down by the body thrown vertically up in vacuum condition?
The time taken to go up is equal to the time taken to come down for a body thrown vertically up in vacuum conditions. This is because the acceleration due to gravity acts in opposite directions during the ascent and descent, resulting in symmetric time intervals.
