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Part 1: Newton’s Laws Observe the virtual skateboarder coming down the hill and over the ramp. Describe how each of Newton’s laws of motion can be observed in this action. You can choose the dry, wet, or muddy conditions, or some combination of these. Newton’s First Law of Motion The skateboard riding down a hill with mud once the skateboard reaches the bottom it slows down due to frictional force acting in the opposite direction. Newton’s Second Law of Motion Newton’s Third Law of Motion

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Answer:

the FIRST LAW NEWTON's skater goes down at a constant speed.

eaching the ramp in skidding, it has an acceleration due to the decrease in friction force. This is NEWTON'S SECOND LAW

NEWTON'S THIRD LAW, in the Normal force which is a reaction to the support of the skating

Explanation:

This problem asks to describe Newton's laws in a skater.

When going down a hill the skater acquires a constant speed, since the friction grows with the speed until it reaches the value of the weight component, In this case we see that the sum of the external forces is zero and According to the FIRST LAW NEWTON's skater goes down at a constant speed.

When reaching the ramp in skidding, it has an acceleration due to the decrease in friction force. This is NEWTON'S SECOND LAW

in this same part we can appreciate NEWTON'S THIRD LAW, in the Normal force which is a reaction to the support of the skating on the ramp and the planes the force of the skateboard on the ramp.

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The force of friction of that stops the skateboard is equal to the product of mass and acceleration of the skateboard.

The skateboard riding down a hill with mud once the skateboard reaches the bottom it slows down due to frictional force acting in the opposite direction.

The force of the skateboard is equal in magnitude to the frictional force but in opposite direction.

Newton's first law of motion states an object at rest or uniform motion in s straight line will continue in that form unless acted upon by an external force.

  • The skateboard riding down a hill with mud once the skateboard reaches the bottom it slows down due to frictional force acting in the opposite direction.

Newton's second law of motion states that the force applied to an object is directly proportional to the product of mass and acceleration of the object.

  • The force of friction of that stops the skateboard is equal to the product of mass and acceleration of the skateboard.

Newton's third law of motion states that for every action there is equal and opposite reaction.

  • The force of the skateboard is equal in magnitude to the frictional force but in opposite direction.

Learn more about Newton's law of motion here: https://brainly.com/question/10454047

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