The Laws of Motion Worksheet
Instructions: For this assignment, describe Newton’s laws...
The Laws of Motion Worksheet
Instructions: For this assignment, describe Newton’s laws of motion while skateboarding. Next, study the graph of distance traveled to determine if the skateboarder is on a dry, wet, or muddy road condition. Describe how these conditions affect the motion of the skateboard. Then, complete the table by calculating the acceleration of the skateboard on each road condition.
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
Newton’s Second Law of Motion
Newton’s Third Law of Motion
Part 2: Analyze
The graph below shows the distance traveled by the skateboarder on each of the different road conditions. Using the graph, determine which of the roads was dry, wet, or muddy. Explain your answer using complete sentences.
Road A
Road B
Road C
Part 3: Calculations
Using the given data table, calculate the acceleration of the skateboarder. You can use either form of the equation below.
Road A
Road B
Road C
Acceleration (m/s2)
Mass of person and skateboard (kg)
62
62
62
Force (N)
480
240
600
What would you expect to happen to the acceleration if all friction were removed from the ramp, making the net force even higher than 600 N?
Answers: 2
Physics, 22.06.2019 15:20
Your science teacher brings in a speaker to talk to your class about climate change. during the session, students ask a few questions. which questions are related to the current evidence on climate change
Answers: 3
Physics, 22.06.2019 20:40
Newtons view of arrangement of the universe. don't copy from anywhere.
Answers: 3
Physics, 23.06.2019 00:30
Why does the equilibrium position of the spring change when a mass is added to the spring? will the mass oscillate around the new equilibrium position of the spring or the previous position without a mass attached to the spring? if the equilibrium position of the spring changes by 20 cm (assuming no initial mass) when a mass is added to the spring with constant 4.9 kg/s^2, what is the mass of the object attached to the spring?
Answers: 2
Mathematics, 30.10.2020 22:40
Computers and Technology, 30.10.2020 22:40
Biology, 30.10.2020 22:40
English, 30.10.2020 22:40
Arts, 30.10.2020 22:40
Chemistry, 30.10.2020 22:40
Mathematics, 30.10.2020 22:40
Mathematics, 30.10.2020 22:40
History, 30.10.2020 22:40
Computers and Technology, 30.10.2020 22:40
Mathematics, 30.10.2020 22:40