Want this question answered?
This is an example of Newton's Third Law. It can also be explained - equivalently - via conservation of momentum.
bum
Newton's Third Law of Motion.
First: An object in equilibrium will have no motion Second: An object in motion will move on at same speed indefinitely (considering no friction) Third: A force apply on an object will cause it to accelerate The Newton principle still hold true in every technology in modern time and still the basic of engineering
Physics, Newton's First Law: an object will stay in motion unless acted upon by an outside force. The rocks use momentum and lack of friction (the outside force) on the slick ice to continue to move. The sweepers brush hard against the ice in front of the rocks to get a smoother and slicker surface so the rock can continue to move forward. The rocks are able to curl because as they are moving forward they are also rotating in the direction that the curler released it. Newton's Second Law: Force is equal to mass times acceleration, is also used. This is why the rocks are different weights. The more weight a rock has, the more force it will have as it moves across the ice to hit another rock. Newton's Third Law: For every action there is an equal and opposite reaction can also be used to explain curling. The amount of force a curler uses to push off, determines the speed and direction the curler will go. The more force used to push off, the faster the curler will go.
Because, they lead new ideas, such as: how the planet move, the newton's law 1,2, and third, and technology developments.
This is an example of Newton's Third Law. It can also be explained - equivalently - via conservation of momentum.
Newton's Third Law of motion: Every action has an equal and opposite reaction. When we move forward(action) the earth moves backward(reaction). When we move backward(action) the earth moves forward(reaction).
First of all, why would rocks move in different directions? Even though rocks could move in different directions, it is not possible for them to move on their own. Rocks have to have force applied to them in order to move.
Isaac Newton
If no force, the planets would move in a straight line, not in a orbit around the sun.
The zone where rocks move deeper and deeper.