Newton's second law states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. In the context of a car's motion, this means that the acceleration of the car is determined by the net force applied to it (such as the engine power and friction) and the car's mass. This law helps explain how a car accelerates, decelerates, and turns while in motion.
Bumper cars demonstrate Newton's third law of motion because when one car hits another, the force that propels the first car forward is equal and opposite to the force that pushes the second car backward. This shows that for every action, there is an equal and opposite reaction.
Through what three ways can we control the motion of our cars?
Seat belts in cars play a role in Newton's third law of motion because they provide a force that acts in the opposite direction to the force exerted on a person during a collision. When a car suddenly stops, the person's inertia wants to keep them moving forward, but the seat belt provides a force that reduces the impact by slowing them down gradually. This demonstrates Newton's third law that every action has an equal and opposite reaction.
It is the type of motion explained in Newtons three laws. Objects acting on one another on a pool table. Cause and effect of physical happenings. Lever, inclined plane, fulcrum, etc. in action.
The two cars are moving in opposite directions from the starting point.
because newtonas lawis andobjectthat stays in motionwill like stay in motion thereforethe cars afterthey getgettherespeedwill probably keep going until the outer force( friction) acts to slow it down
a car crash bumper cars
Bumper cars demonstrate Newton's third law of motion because when one car hits another, the force that propels the first car forward is equal and opposite to the force that pushes the second car backward. This shows that for every action, there is an equal and opposite reaction.
i dont know im stupid
the heavier one will go faster because of newtons first law of motion.
It would be better to use newtons second law to explain this but okay. well newtons 1st law states that an object in motion will stay in motion unless stopped by a force. So, if your in the car going 40 miles an hour and you suddenly stop the car without slowing down, the car stops but you don't and you would keep going in the same speed and direction without the airbags there or a seatbelt you would fly right through the windshield so the airbag protects you from the objects you would slam into in a car crash.
because it just does
ola k ase
Newton's third law of motion states, "When one body exerts a force on a second body, the second body simultaneously exerts a force equal in magnitude and opposite in direction on the first body." An example of Newton's third law of motion is two cars in a head-on collision.
Due to reletive motion between both cars if the speed of both cars are same then the relative motion is w zero
Very carefully.
weaving in and out of cars