Newton's Laws are constantly in effect everywhere, not just on Earth. If anything, they are actually more pertinent in space because the lack of gravity and air resistance make the calculations easier to perform and make all forces even more apparent. When you apply a force in space, there are no other forces to oppose it and slow an object down once in motion.
However, you will also have to take into account that Newton's Laws are just approximations for Einstein's Special Relativity. In reality, Newton's law break down when talking about objects with are moving with velocities close to the speed of light. While they might be fast, most astronomical phenomenon occur nowhere near the speed of light so the discrepancies are small and can be ignored. However, General Relativity will cause more problems as the massive objects that make up most of space will cause disturbances in the space-time around them that without further explanation will violate parts of Newton's Second Law. Performing experiments in the vacuum of space with relatively small masses and small speeds however will experience no such problems.
When you read about Newton's third law, you must have seen the list under it
telling where it's applicable and where it's not. What ? There was no list ?
Well, then, it must be applicable everywhere.
So now you're wondering, when the Earth pulls on the falling ball with a
gravitational force, where's the equal and opposite reaction force ?
Very simple: The ball also pulls on the Earth, with an EQUAL force.
And the Earth also falls toward the ball, with an acceleration, compared to
the acceleration of the ball, that's inversely proportional to the Earth's mass
compared to the mass of the ball.
It even works with you, too. When you stand on the bathroom scale, it shows
your weight on the Earth. Turn the scale over, and it'll display the Earth's weight
on you. They're equal.
Astonishing, maybe, but certainly not complicated.
Newton's laws of motion apply everywhere, but are bestdemonstrated and
most noticeable in outer space.
Newton's third law is UNIVERSAL: It applies everywhere...
Newton's 3rd law relates to rockets like the space shuttles.
Yes! It can be!..but the formulas and the calculations may differ from what we have presently. Because space also has a motion literally there's a lot more motion in space rather than earth.
Newton's third law of motion is that for every action there is an equal and opposite reaction. This law is also called reciprocal motion/force or "action-reaction."
If you hit someone they will hit you too :)
penis
Equally.
It's applicable everywhere.
When the the sum of forces equals zero, or when Conservation of Energy Condition exists..
newtons third law of motion
Always. Evey object in the universe is experiencing Newtons third law. Just by sitting in your chair motionless you are experiencing Newtons third law.
Newton's Third Law applies everywhere.
Newton's third law of motion is that for every action there is an equal and opposite reaction. This law is also called reciprocal motion/force or "action-reaction."
That's Newton's third law of motion. A link can be found below.
false
Yes.
A birthday cake.
Newton's Third Law. Equivalent to Conservation of Momentum. By Newton's Third Law, if the gas is pushed out of the rocket, the gas pushes the rocket back, in the opposite direction.
Newtons third law.
no