Want this question answered?
Use Newton's Second Law, F=ma. Solving for a: a = F/m (acceleration = force / mass). If the force is in Newton, and the mass in kilograms, acceleration will be in meters/second2.
It is one of Isaac newton's laws, I believe it is the second one. It says that for every force, there is an equal and opposite force. Say you are pulling a cart. If you pull the cart with a force of 10N, the cart pulls on you with a force of 10N (mostly due to friction). If a train hits you with a force of 100,000N, you hit the train with a force of 100,000N; believe it or not.
Newton's First Law of Motion talks about the inertia of the body in simple words. Example: If a rock is thrown. Why would it continue to move even after it is got out from your hand? Why should it move continuously? It should stop once you stop giving it force, right? But it won't. This is explained by Newton's First Law. Newton's First Law: A body in a state of motion or rest continues to do so until an external force acts on it.
Work= 200 Joules.
According to Newton's Second Law of Motion, the greater the force, the greater the acceleration. So if you were to begin pushing a shopping cart harder, you go faster and there is more acceleration. If you were to push the cart softer there would be less acceleration.
Use Newton's Second Law, F=ma. Solving for a: a = F/m (acceleration = force / mass). If the force is in Newton, and the mass in kilograms, acceleration will be in meters/second2.
It is one of Isaac newton's laws, I believe it is the second one. It says that for every force, there is an equal and opposite force. Say you are pulling a cart. If you pull the cart with a force of 10N, the cart pulls on you with a force of 10N (mostly due to friction). If a train hits you with a force of 100,000N, you hit the train with a force of 100,000N; believe it or not.
It is one of Isaac newton's laws, I believe it is the second one. It says that for every force, there is an equal and opposite force. Say you are pulling a cart. If you pull the cart with a force of 10N, the cart pulls on you with a force of 10N (mostly due to friction). If a train hits you with a force of 100,000N, you hit the train with a force of 100,000N; believe it or not.
It is one of Isaac newton's laws, I believe it is the second one. It says that for every force, there is an equal and opposite force. Say you are pulling a cart. If you pull the cart with a force of 10N, the cart pulls on you with a force of 10N (mostly due to friction). If a train hits you with a force of 100,000N, you hit the train with a force of 100,000N; believe it or not.
The cart's acceleration will be directly proportional to the net force applied to it. If the force remains constant, the acceleration will also remain constant, assuming no other external factors are affecting the cart's motion.
Even though the cart is pulling on the horse with the same force that the horse is pulling on the cart, the weight of the horse, the way it runs, versus the way wheels move, all add up to make the sum of forces on the system move in the direction of the horse.
Newton's First Law of Motion talks about the inertia of the body in simple words. Example: If a rock is thrown. Why would it continue to move even after it is got out from your hand? Why should it move continuously? It should stop once you stop giving it force, right? But it won't. This is explained by Newton's First Law. Newton's First Law: A body in a state of motion or rest continues to do so until an external force acts on it.
As the horse exerts greater force, both horse and cart move, accelerating from zero to some velocity. During that acceleration the net forward force on the horse must be greater than the net backward force on the horse. And also, the net forward force on the cart must be greater than the net backward force on the cart. This is from Newton's second law
The basic equation is: force equals mass times acceleration.
There are three forces that are exerted on the horse cart system. They are: weight, pull, and friction.
F=mass * acceleration 60kg m/s^2=10kg * acceleration 6m/s^2 = acceleration
Work= 200 Joules.