well the 3rd law of motion states that any object pushed by anouther object will accelerate in speed but einstien said if it's being pushed by a speed going faster than the speed of light it is impossible which is true but the third law apply's to anything else slower than the speed of light.
Albert Einstein tried to prove Newton wrong.
Answer: Einstein found some corrections to Newton's law of gravity that must be applied at high speeds and very large distances, but within the solar system Newton's law is fine.
Newton's Law of Gravity is not wrong, in macroscopic scale and at relatively low speed, it predicts the movement of objects accurately.
However, objects at microscopic scale near the speed of light will have to take into account time dilation, and General Relativity helps describes these.
As far as I am aware, Galileo did not prove Newton wrong. In any case, Galileo lived before Newton, and although involved in the study of motion amongst other things, did not get as far as defining the laws of motion, which Newton succeeded in doing at a later date.
It is not that science rejected the third of Newton. Everyone accepted this law by Newton.
Im not sure, maybe he punched someone and they punched him back. That is so not true. Who ever said that is waaaaaaaaaaaaaaay off!! (no effence)
I'm not aware of any, and pretty sure none have been found.
So far they have NOT been proven wrong, so you may have a hard time trying it.
yeah , because it wasnt accurate .
It states newtons law of gravitation
This is due to Newtons first law. Because their is no gravity the object will move in a straight line unless a outside force is applied to it. Such as the gravity of a near by planet/object.
the second law of motion states the relationship between force, mass and acceleration. acceleration= force/mass
Law of inertia.
newtons third law of motion
The law doesn't affect gravity; it describes it.
Gravity
false
yes, since newtons law
newtons law, or laws they describe gravity and momentum etc..
The Universal Law of Gravitation is a force equation, therefore it should have units of Newtons.
Both are 'Inverse square' forces, f=k/r2 .
Yes
Either Gravity , Newtons Law , Force !
Gravity pulls them down. Newtons Law of Gravity: what goes up must come down. objects fall to the ground because of gravity
according to Isaac Newtons law of gravity. apple's fall from trees.
distance between them decreases. gravity is inversely proportional to square of distance between two objects, according to newtons law of gravity