Question

1st Law - an object at rest will stay at rest and an object in ______will stay in ________
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Newton's 2nd Law of Motion states that __________ = Mass x Acceleration (F = m • a)
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Newton's 3rd law states that for every action there is an equal and opposite ________.
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A ball rolling across the grass slows down and comes to a stop bc of the force OPPOSING motion
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Which travels further if pushed with the same force - a golf ball or a bowling ball?
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Balloon Rocket - which law supported why the rocket was able to go?
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Which law supports why the penny stayed at rest until the card was flicked?
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What surface would be the easiest to ride a bike on because it has the lowest amount of friction?
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What surface would be the easiest to ride a bike on because it has the lowest amount of friction?
sidewalk or sand or gravel
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Which scientist came up with the Laws of Motion?
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All forces act in _____________
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Which of Newton's laws deals with MOTION?
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Which law? You are riding a horse; the horse stops, but you continue moving forward
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Which law? A marble can be thrown farther than a bowling ball
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Which law? It takes less force to accelerate a car than it does a large truck
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Which law? A car you are riding in stops quickly; you continue forward in your seatbelt
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Which law? When jumping in the water, you pushed off a boat and it pushes off you
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Which law? You are skating - you and a friend run into each other and go in opposite directions
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Which law? A cookie on the table will stay on the table until Santa comes to eat it
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Which law? A cookie on the table will stay on the table until Santa comes to eat it

1st 2nd or 3rd
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wrong
Answered by GPT 3.5
Motion
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Force
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Reaction
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Friction
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If pushed with the same force, a golf ball would generally travel further than a bowling ball. This is because the golf ball has a smaller mass compared to the bowling ball, allowing it to experience less inertia and resistance to motion.
Answered by GPT 3.5
The Balloon Rocket demonstration can be explained by Newton's Third Law of Motion. According to this law, for every action, there is an equal and opposite reaction. In this case, when the balloon is inflated and the air inside is released backward, it creates a backward force (action). As a result, there is an equal and opposite forward force (reaction) that propels the balloon rocket forward.
Answered by GPT 3.5
The first law of motion, also known as the law of inertia, supports why the penny stayed at rest until the card was flicked. According to this law, an object at rest will stay at rest unless acted upon by an external force. In this scenario, the penny remains stationary due to its inertia until the card flicks it, providing an external force and causing the penny to move.
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A smooth, well-paved surface would be the easiest to ride a bike on because it has the lowest amount of friction. Friction between the tires and the road surface can create resistance and make it more difficult to pedal and maintain speed. Therefore, a surface with minimal irregularities and smoothness, such as asphalt or concrete, would offer less friction and an easier riding experience.
Answered by GPT 3.5
Of the options provided, a smooth sidewalk would generally have the lowest amount of friction, making it the easiest surface to ride a bike on. Sidewalks are usually made of concrete or paved materials, which offer a relatively smooth and even surface. This reduces the friction between the bike tires and the ground, allowing for easier and smoother bike riding. Sand or gravel surfaces, on the other hand, can be more challenging to ride on as they have higher levels of friction and instability.
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The scientist who came up with the Laws of Motion is Sir Isaac Newton. His laws, known as Newton's Laws of Motion, are fundamental principles in classical physics that describe the relationship between the motion of objects and the forces acting upon them.
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All forces act in pairs.
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All of Newton's laws of motion deal with motion. However, specifically, Newton's First Law of Motion (the law of inertia) describes the behavior of objects at rest or in uniform motion. Newton's Second Law of Motion relates the acceleration of an object to the net force acting on it. Newton's Third Law of Motion explains the concept of action and reaction forces. Overall, all three laws collectively address the topic of motion and its relationship to forces.
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The scenario described can be explained by Newton's First Law of Motion, also known as the law of inertia. According to this law, an object in motion will tend to stay in motion with the same speed and direction unless acted upon by an external force. In this case, when the horse stops abruptly, your body, which was in motion along with the horse, still continues moving forward due to its inertia. This causes you to continue moving forward even after the horse has stopped.
Answered by GPT 3.5
The statement provided can be explained by applying Newton's Second Law of Motion. According to this law, the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. When comparing throwing a marble and a bowling ball with the same force, the marble, which has less mass compared to the bowling ball, will experience a greater acceleration. As a result, the marble can be thrown farther because it is easier to accelerate due to its lower mass.
Answered by GPT 3.5
The statement can be explained by Newton's Second Law of Motion. According to this law, the acceleration of an object is directly proportional to the net force acting upon it and inversely proportional to its mass. In this case, the car has less mass compared to the large truck. Therefore, to achieve the same acceleration, less force is required for the car as it has less mass to overcome. Conversely, a larger force is needed to accelerate the larger mass of the truck.
Answered by GPT 3.5
The scenario described can be explained by Newton's First Law of Motion, also known as the law of inertia. According to this law, an object in motion will tend to stay in motion with the same speed and direction unless acted upon by an external force. In this case, when the car stops quickly, your body, which was in motion along with the car, still continues moving forward due to its inertia. However, your body is restrained by the seatbelt, which applies an external force to prevent you from continuing forward, keeping you restrained in the seat.
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The scenario described can be explained by Newton's Third Law of Motion. According to this law, for every action, there is an equal and opposite reaction. When you jump in the water and push off the boat, you exert a force on the boat in one direction. As a reaction to this force, the boat exerts an equal and opposite force on you, pushing you in the opposite direction. This is why you experience a backward force from the boat as you jump into the water.
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The scenario described can be explained by Newton's Third Law of Motion. According to this law, for every action, there is an equal and opposite reaction. When you and your friend run into each other while skating, you exert a force on each other. As a result, you both experience equal and opposite forces. These forces cause you and your friend to move in opposite directions as a reaction to the force applied by each other.
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The scenario described does not directly relate to any specific law of motion or physics. It seems to imply a humorous or imaginative situation involving Santa Claus and a cookie on a table. In the context of Newton's laws of motion, none of the laws explain the specific behavior mentioned in the scenario.
Answered by GPT 3.5
The scenario mentioned does not directly relate to any of Newton's laws of motion. The behavior of a cookie staying on the table until Santa comes to eat it does not involve motion, forces, or interactions between objects which are the subjects of Newton's laws. Therefore, it does not fall under Newton's First, Second, or Third Law of Motion.
Answered by GPT 3.5
I apologize for the confusion. The scenario of a cookie on the table staying at rest until Santa comes to eat it can be explained by Newton's First Law of Motion, also known as the law of inertia. According to this law, an object at rest will stay at rest unless acted upon by an external force. In this case, the cookie on the table remains at rest until Santa exerts an external force by picking it up and eating it.