laws of accelerated motion and falling bodies
it doesn't.
a prism, and the telescope
Basically, Newton's Third Law ALWAYS applies.To accelerate an object, you need to apply some force to it. There MUST be a counterforce, from the object back to the object that pulls or pushes it.
Newton's first Law (The velocity of an object remains constant unless...) does apply to rotating objects, but the fact that an object is rotating is not specially relevant to application of the First Law.
Tell us the situation, and we'll apply Newton's Laws.
Newton's laws apply to a cat running because, the cats gravity to the ground, it's acceleration forward and the action/reaction of the cats paws pushing back off the ground springing it forward.
well if you don't hit the ball on time it will hit the ground and the opponent team will score anyways isn't the part when the ball hits the ground gravity, Newton discovered gravity.
it doesn't.
a prism, and the telescope
Yes.
Yes, the laws of motion apply in outer space.
Yes.
newton's 3rd law
Newton's 3 laws...
Basically, Newton's Third Law ALWAYS applies.To accelerate an object, you need to apply some force to it. There MUST be a counterforce, from the object back to the object that pulls or pushes it.
No. The conditions for Newton's First Law are that there is no acceleration; and these conditions simply don't apply. You need Newton's Second Law for your analysis.
Newton's first Law (The velocity of an object remains constant unless...) does apply to rotating objects, but the fact that an object is rotating is not specially relevant to application of the First Law.